Avaliação da imunoexpressão de vimentina e de osteopontina no reparo ósseo precoce de defeitos preenchidos com enxerto bovino associado à terapia laser de baixa intensidade / Evaluation of the immunoexpression of vimentin and osteopontin in early bone repair of defects filled with bovine bone graft associated to low level laser therapy

Paula, Fernanda Oliveira de

13 August 2010

Submitted by Renata Lopes (renatasil82@gmail.com) on 2016-10-03T15:00:55Z No. of bitstreams: 1 fernandaoliveiradepaula.pdf: 152498 bytes, checksum: 3eda55fca7b7172518cf488b112dbc87 (MD5) / Approved for entry into archive by Diamantino Mayra (mayra.diamantino@ufjf.edu.br) on 2016-10-03T15:17:08Z (GMT) No. of bitstreams: 1 fernandaoliveiradepaula.pdf: 152498 bytes, checksum: 3eda55fca7b7172518cf488b112dbc87 (MD5) / Made available in DSpace on 2016-10-03T15:17:08Z (GMT). No. of bitstreams: 1 fernandaoliveiradepaula.pdf: 152498 bytes, checksum: 3eda55fca7b7172518cf488b112dbc87 (MD5) Previous issue date: 2010-08-13 / O objetivo deste estudo foi avaliar, pelo método de imunoistoquímica, a expressão de vimentina e osteopontina durante as fases iniciais de reparo de defeitos ósseos criados em fêmures de ratos Wistar albinus tratados com enxerto ósseo bovino orgânico Gen-ox® em associação com terapia laser de baixa intensidade. Foram selecionadas de forma aleatória 24 amostras emblocadas de arquivo provenientes de trabalho experimental desenvolvido anteriormente, no qual foram efetuadas análises histológicas e histomorfométricas de fêmures de cinquenta ratos. Obtiveram-se lâminas histológicas dos blocos de diferentes animais, os quais estavam previamente divididos, de acordo com o tratamento realizado, da seguinte forma: grupo I (controle), grupo II (Gen-Ox®) e grupo III (LLLT e Gen-Ox®). Foram elaboradas quatro lâminas para cada um dos tempos experimentais de 3, 5, 7 e 15 dias para cada grupo. Duas lâminas foram utilizadas para analisar a expressão da osteopontina e duas para vimentina, totalizando 48 lâminas. Em cada lâmina considerou-se dois campos para análise, sendo um campo na região da interface osso-defeito e o outro próximo ao periósteo, em um total de 96 campos. Para realização da reação imunoistoquímica anti-vimentina e anti-osteopontina utilizou-se o método clássico do complexo avidina-biotina peroxidase anti-peroxidase. A marcação positiva foi determinada pela identificação de coloração castanha intracitoplasmática nas reações com ambos os anticorpos. Os cortes foram analisados em microscópio Zeiss em aumentos de 200x, 400x e 1000x, em toda extensão, por dois diferentes observadores. Determinou-se, por método de contagem semiquantitativo, a média de intensidade de células positivas marcadas nos campos dos tratamentos propostos em cada período, o qual foi classificado pelo sistema de escore de acordo com os seguintes parâmetros: 0 = ausência de marcação; + = marcação leve (até 1/3 de células positivas); ++ = marcação moderada (até 2/3 de células positivas); e +++ = marcação intensa (acima de 2/3 de células marcadas). Os resultados mostraram que todos os grupos apresentaram marcação para vimentina e para osteopontina em todos os períodos do experimento. Observou-se marcação celular mais acentuada para vimentina no período cicatricial inicial no grupo III. Não foram verificadas diferenças na marcação para osteopontina nos animais submetidos à terapia laser de baixa intensidade associada ao enxerto quando comparado aos outros grupos. / The aim of this study was to evaluate, by immunohistochemistry, the expression of vimentin and osteopontin during the early stages of repair of bone defects created in femurs of Wistar albinus rats treated with organic bovine bone graft Gen-ox® and associated with low level laser therapy. Twenty four embedded samples were randomly selected from the file of a previous experimental work, in which histological analysis and histomorphometry of the femurs of fifty rats was performed. Histological slides were obtained from blocks of different animals which were divided in accordance to previous treatment as follow: group I (control), group II (Gen-Ox ® ) and group III (LLLT and Gen-Ox ®). Four slides were prepared for each of the experimental time of 3, 5, 7 and 15 days for each group. Of the four slides, two were assessed for the expression of osteopontin and two of vimentin, in a total of 48 slides. On each slide two fields were considered for analysis: one in the bone-defect interface and the other near the periosteum, in a total of 96 fields. To perform the immunohistochemistry anti-vimentin and anti-osteopontin, we used the classical avidin-biotin peroxidase anti-peroxidase method. The positive staining was determined by identification of intracytoplasmic brown color in the reactions with both antibodies. The sections were analyzed in Zeiss microscope at a magnification of 200x, 400x and 1000x by two different observers. The average intensity of positive cells stained in the fields in each period was determined by a semiquantitative counting method which was classified by a scoring system as follow: 0 = no marking; + = mild labeling (up to one third of positive cells); + + = moderate labeling (up to two thirds of positive cells) and + + + = intense labeling (over two thirds of labeled cells). The results showed that all groups had marked for vimentin and osteopontin in all periods of the experiment. We observed a stronger cell labeling for vimentin in the initial healing period in group III. There were no differences in cell labeling for osteopontin in animals subjected to low level laser therapy associated with graft as compared to other groups.

Terapia laser de baixa intensidade

Imunoistoquimica

Enxertos ósseos

Vimentina

Osteopontina

LLLT

Immunohistochemistry

Bone graft

Vimentin

Osteopontin

Genetic and molecular background of ascending aortic aneurysms

Huusko, T. (Tuija)

14 May 2013

Abstract Thoracic aortic aneurysms (TAAs) are a significant source of morbidity and mortality. Classical risk factors for TAAs are hypertension, atherosclerosis, male gender, smoking, age, high body mass index, family history and chronic obstructive pulmonary disease. In addition, in certain cases of TAAs, i.e., ascending aortic aneurysms (AscAA), genetic factors are highly prominent. Matrix metalloproteinases are in a major role in the destruction of the aortic wall and the imbalance between matrix metalloproteinases, and their inhibitors are involved in the formation of aneurysms. In addition, osteopontin is a potent regulator of matrix metalloproteinases and it is widely expressed in injured arteries. Recently, telomere shortening has been shown to be involved in the development of abdominal aortic aneurysms (AAA). In this aneurysm type, atherosclerosis has a major role. Since atherosclerosis is frequently absent in the case of TAAs, the length of telomeres was measured in the blood samples of TAA patients. The purpose of this thesis was to study the genetic background of TAAs of the ascending aorta and furthermore, the molecular background of this disease. The first study was done with families with TAAs, and dissections and one chromosomal locus (5q13-14) of the studied seven loci showed a significant genetic linkage for TAAs. Two other studies were done exploiting our TAA case-control material. Study II showed elevated levels of osteopontin, matrix metalloproteinase type 2 and 9 in the plasma and tissue samples of TAA patients compared with controls. In the third study, longer blood leukocyte telomeres were found in the DNA samples of TAA patients compared with controls; furthermore, the elevation of telomere lengthening protein telomerase expression was found in the tissue samples of TAA patients. This thesis presents region 5q13-14 as a potential genetic regulator for TAAs in Finnish families. In addition, elevated levels of osteopontin, matrix metalloproteinase type 2 and 9 can be considered as a plasma biomarker for aneurysmal disease. Furthermore, longer blood leukocytes were found to be a significant risk factor for developing TAAs. / Tiivistelmä Rinta-aortan aneurysmat ovat merkittävä sairastumisiin ja kuolemiin johtava tekijä. Perinteisinä riskitekijöinä aneurysmille on pidetty korkeaa verenpainetta, ateroskleroosia, miessukupuolta, tupakointia, ikää, ylipainoa, suvussa esiintyneitä aneurysmatapauksia ja keuhkoahtaumatautia. Näiden lisäksi erityisesti nousevan rinta-aortan alueella esiintyvissä aneurysmissa myös perinnöllisillä tekijöillä on korostunut merkitys. Matriksimetalloproteinaaseilla ja niiden estäjillä on merkittävä rooli, kun aortan seinämää hajotetaan. Tasapainon järkkyminen kyseisten proteiinien keskinäisessä suhteessa voi johtaa aneurysman muodostumiseen. Myös osteopontiinin tiedetään olevan tehokas matriksimetalloproteinaasien säätelijä, ja sitä tuotetaankin yleisesti vahingoittuneessa verisuonessa. Telomeerien lyhentyminen on vastikään yhdistetty vatsa-aortan alueella esiintyviin aneurysmiin, joissa ateroskleroosilla on yleensä merkittävä rooli. Koska ateroskleroosi on vain harvoin nousevan rinta-aortan alueen aneurysmien taustalla, rinta-aortan aneurysmapotilaiden valkosolujen telomeerien suhteelliset pituudet määritettiin. Väitöskirjan ensimmäisessä osatyössä keskityttiin löytämään geneettinen kytkentä rinta-aortan aneurysmien ja jonkin seitsemän tutkitun kromosomialueen välille. Geneettinen kytkentä löydettiin kromosomialueelta 5q13-14. Osatöissä 2 ja 3 hyödynnettiin rinta-aortan aneurysmien potilas- ja verrokkiaineistoja. Osatyö 2 osoitti, että matriksimetalloproteinaasien (2 ja 9) määrät ovat kohonneet rinta-aortan aneurysmapotilaiden näytteissä verrokkeihin verrattuna. Osatyössä 3 telomeerien suhteelliset pituudet veren valkosoluissa olivat pidemmät nousevan rinta-aortan aneurysmapotilaiden näytteissä verrokkihenkilöiden näytteisiin verrattuna. Myös telomeraasin tuotto oli lisääntynyt rinta-aortan aneurysmapotilaiden aorttakudosnäytteissä. Väitöskirjassa esitetään tuloksena kromosomialue 5q13-14 geneettisenä säätelijänä suomalaisissa suvuittain esiintyvissä rinta-aortan aneurysmatapauksissa. Kohonneita matriksimetalloproteinaasien ja osteopontiinin tasoja voidaan lisäksi pitää biomarkkereina rinta-aortan aneurysmien sairastavuudelle. Veren valkosolujen pidemmät telomeerit näyttävät myös olevan yhteydessä rinta-aortan aneurysmien sairastavuuteen.

genetic linkage

genetic loci

matrix metalloproteinases

osteopontin

telomerase

telomere

thoracic aortic aneurysm

geenilokus

geneettinen kytkentä

matriksimetalloproteinaasi

osteopontiini

rinta-aortan aneurysma

telomeeri

telomeraasi

Placental vascular smooth muscle cell differentiation in pregnancies complicated by obesity and gestational diabetes

Whittle, Saxon

January 2016

The increasing demand on healthcare from pregnancies complicated by gestational diabetes (GDM) and obesity is caused in large part by fetal macrosomia (FM). Alterations to the vasculature of the placenta leading to changes to nutrient flux may be more frequent when GDM and obesity occur concomitantly. However, the impact of obesity as an independent comorbidity is poorly understood. The current study sought to characterise structural and functional changes in placenta from pregnancies complicated by GDM and/or obesity and examine the involvement of miRs in this phenomenon, as the phenotype of vascular smooth muscle (VSM) has been documented to be influenced by microRNA (miR) expression. Patients were stratified according to the presence or absence of GDM and/or obesity, which resulted in four groups. Morphometric analysis of CD31 immuno-stained placentas showed that pregnancies complicated by GDM or obesity both had a higher mean sum ratio of the area of the lumen compared to the endothelium. No relationship was found with FM. The ratio increased with maternal body mass index (BMI) in all pregnancies. Immunohistochemistry with a panel of VSM markers suggested an altered phenotype of VSM in pregnancies complicated by GDM and/or obesity. RT-QPCR and immunoblotting showed a higher expression of smooth muscle myosin (SM-MHC), h-caldesmon (HC) and alpha smooth muscle actin (ASMA) in pregnancies complicated by obesity, consistent with a greater contractile capacity. This was most marked when obesity occurred without GDM.Studies were conducted on two miRs, miR-145, which is associated with VSM in many vascular tissues, and the snoRNA-derived species miR-664a-3p, which microarray studies had shown to be higher in placentas from pregnancies complicated by GDM. Dicer and dyskerin, components of the snoRNA-derived miR biogenesis pathway, were increased and reduced respectively in GDM placenta. However, studies in cultured placental villous explants suggested that neither miR species was regulated by glucose, insulin or IGF-I. Placental mesenchymal cells are the developmental precursors of VSM. In primary culture, these cells expressed both miRs. To determine the function of miR-664a-3p, a nucleofection protocol was developed in a fetal mesenchymal cell line, WI38, and applied to first-trimester placental mesenchymal cells. Preliminary proteomic analysis after nucleofection-mediated knockdown of miR-664a-3p suggested a series of novel candidate target proteins for this uncharacterised miR species. Blood vessel structure and VSM phenotype are both altered in pregnancies complicated by GDM and/or obesity. The significance of apparently higher level of contractile proteins with wider vessel lumens in obesity requires further investigation. Translational regulation by miRs including miR-145 and miR-664a-3p is implicated in these alterations. In future, targeted therapies that alter miR levels in the placenta may be useful in control of fetal overgrowth such as FM.

618.3

Characterization of non-collagenous extracellular matrix proteins in cardiac and aortic valve remodelling

Pohjolainen, V. (Virva)

04 September 2012

Abstract Heart failure (HF) and aortic valve stenosis (AS) are complex disorders affected by functional alterations and actively regulated remodelling of the heart and the aortic valve, respectively. In addition to structural proteins, such as collagens and elastin, the extracellular matrix (ECM) in the heart and the aortic valve comprises non-collagenous factors that are not strictly involved in the architecture but may modulate cardiac and valvular remodelling. In the present study the expression of non-collagenous fibrosis- and calcification-related ECM proteins was investigated in HF-associated cardiac remodelling from different origins as well as in fibrocalcific aortic valve disease leading to AS. The experimental models of pressure overload, myocardial infarction (MI) and chronic renal failure were used to study the cardiac expression of bone morphogenetic protein (BMP)-2, BMP-4, bone sialoprotein, matrix Gla protein (MGP), osteoactivin, osteopontin, periostin and/or pleiotrophin in vivo in cardiac remodelling. Human aortic valves, obtained from patients undergoing valve replacement, were studied to characterize the valvular expression of BMP-2, BMP-4, bone sialoprotein, MGP, osteoactivin, osteopontin, osteoprotegerin, periostin, pleiotrophin, and thrombospondins (TSPs) 1-4 in the different stages of fibrocalcific aortic valve disease. Left ventricular (LV) MGP expression was upregulated in vivo in non-uremic cardiac remodelling. In vitro results indicate that angiotensin II elevates MGP expression in cardiomyocytes and fibroblasts. Periostin gene expression was induced in cardiac but not in aortic valve remodelling and the cardiac induction in chronic renal insufficiency was associated with LV hypertrophy and blood pressure as well as the cardiac gene expression of other fibrosis-related genes. Bone sialoprotein and osteopontin were expressed in the aortic valves in parallel with calcification, and also in distinct models of cardiac remodelling. Osteoprotegerin protein expression in stenotic valves was weak regardless of a simultaneous increase in gene expression. BMPs were downregulated in AS and no change in LV gene expression was detected in uremic cardiac remodelling. All the studied TSPs were expressed in human aortic valves, and especially the expression of TSP-2 was shown to increase in fibrocalcific aortic valves simultaneously with decreased activation of the Akt/nuclear factor (NF)-κB-pathway. This study delineates distinct expression patterns of non-collagenous ECM proteins in pathological tissue remodelling in the heart and in the aortic valve, and thus emphasizes the role of ECM proteins as an important modulator of cardiac and aortic valve remodelling. / Tiivistelmä Sydämen vajaatoiminnan ja aorttastenoosin taudinkuvaan kuuluvat toiminnallisten muutosten ohella aktiivisesti säädellyt soluväliaineen muutokset sydämen ja aorttaläpän rakenteessa. Soluväliaineen rakenteen muodostavien kollageenien ja elastiinin lisäksi soluväliaineessa on rakenteeseen kuulumattomia proteiineja. Tässä väitöskirjassa tutkittiin sidekudoksen kertymiseen ja kudosten kalkkiutumiseen osallistuvia soluväliaineen proteiineja sydämen vajaatoiminnassa sekä aorttastenoosiin johtavassa kalkkiuttavassa aorttaläppäviassa. Tutkimuksessa selvitettiin sydämen soluväliaineen proteiinien ilmentymistä painekuormituksen, sydäninfarktin ja pitkäaikaisen munuaisten vajaatoiminnan koemalleissa rotalla. Tutkittavia proteiineja olivat luun morfogeneettiset proteiinit 2 ja 4, luun sialoproteiini, matriksin Gla proteiini (MGP), osteoaktiviini, osteopontiini, periostiini ja pleiotropiini. Edellä mainittujen proteiinien lisäksi osteoprotegeriinin ja trombospondiinien 1-4 ilmentymistä tutkittiin kalkkiuttavan aorttaläppävian eri kehitysvaiheissa. Aorttaläpät oli kerätty tekoläppäleikkauspotilailta. Sydämessä MGP:n ilmentyminen lisääntyi kaikissa muissa paitsi munuaisten vajaatoiminnan koemallissa. Angiotensiini II nosti MGP:n ilmentymistä sydänlihassoluissa ja sidekudossoluissa. Periostiinin ilmentyminen lisääntyi sydämen uudelleenmuovautumisessa, muttei aorttaläppäviassa. Lisäksi munuaisten vajaatoiminnan aiheuttama periostiinin ilmentymisen muutos sydämessä liittyi sekä sydämen kasvuun, verenpaineen nousuun että muiden sidekudosta muokkaavien proteiinien ilmentymiseen. Luun sialoproteiinin ja osteopontiinin ilmentymiset erosivat toisistaan erilaisissa sydämen vajaatoiminnan malleissa, mutta aorttaläpissä niiden molempien ilmentyminen oli suhteessa läpän kalkkiutumiseen. Osteoprotegeriinin geenin ilmentyminen lisääntyi kalkkiutuneissa aorttaläpissä vaikkakin proteiinin määrä pysyi vähäisenä. Luun morfogeneettisten proteiinien ilmentyminen oli alentunut sairaissa läpissä, muttei sydämessä munuaisten vajaatoiminnan aikana. Aorttaläpissä ilmennettiin kaikkia trombospondiineita, joista trombospondiini-2:n ilmentyminen kasvoi sairaissa aorttaläpissä. Kalkkiutuneissa läpissä solunsisäinen Akt/NF-κB–signaalinvälitysjärjestelmä oli vaimentunut. Tutkimus osoittaa, että soluväliaineen proteiinien ilmentymistä säädellään eri tavoin sydämen vajaatoiminnassa ja aorttastenoosissa kudoksen uudelleenmuovautumisprosessin aikana.

aortic valve stenosis

bone morphogenetic protein

bone sialoprotein

cardiac remodelling

matrix Gla protein

osteoactivin

osteopontin

osteoprotegerin

periostin

pleiotrophin

thrombospondin

aorttastenoosi

soluväliaineen proteiinit

sydämen uudelleenmuovautuminen

sydämen vajaatoiminta

Rôle de deux protéines de la matrice extracellulaire osseuse, l'ostéopontine (OPN) et la sialoprotéine osseuse (BSP), dans la réparation osseuse par génétique expérimentale chez la souris

Monfoulet, Laurent-Emmanuel

27 October 2009

Un os long est composé de tissus osseux cortical et spongieux. Ces tissus ont des structures et des caractéristiques physiques différentes mais ont tous deux la capacité de se régénérer de façon naturelle suite à une lésion. Cette régénération ou réparation implique une séquence bien caractérisée d’événements contrôlés par l’interaction étroite entre des facteurs de croissance, des cellules, l’environnement chimique et dynamique, ainsi que par la matrice extracellulaire. L’ostéopontine (OPN) et la sialoprotéine osseuse (BSP) sont des protéines de la matrice extracellulaire exerçant des fonctions importantes dans le tissu osseux. Le but de ce travail a été d’étudier le rôle de l’OPN et de la BSP dans la réparation osseuse par génétique expérimentale. Les modèles utilisés dans cette études consistent en des lésions, l’un diaphysaire et purement cortical, l’autre région épi-métaphysaire mêlant destruction de l’os cortical, trabéculaire et de la plaque de croissance. La réparation de ces lésions a été analysée par microtomographie haute résolution aux rayons X et par histomorphométrie. Dans un premier temps, la réparation d’une perforation épi-métaphysaire dans le fémur chez la souris, a été caractérisée et comparée à celle de même diamètre réalisée dans la diaphyse. Dans cette étude comparative, des profils distincts de réparation ont été mis en évidence bien que tous deux mettent en place un mécanisme d’ossification intramembranaire. Ainsi, le défect cortical diaphysaire est comblé par une formation osseuse centripète restreinte à la zone corticale. Dans le modèle épi-métaphysaire, la formation osseuse est initiée au fond du défect et se propager vers le cortex. Ce processus aboutit à une restauration des travées mais à une réparation incompléte du cortex. Ainsi, le premier modèle apparaît comme pertinent pour l’étude de la réparation corticale alors que le modèle épi-métaphysaire se présente plus adapté à l’étude de la réparation de l’os trabéculaire. L’OPN et la BSP n’ont pas de fonctions redondantes dans la réparation de ces lésions. En effet, l’OPN intervient principalement dans la réparation de l’os trabéculaire, son absence entraîne un retard lié à un défaut de progression de l’os au sein de la cavité. L’absence de BSP quant à elle, semble intervenir uniquement dans le processus de réparation de l’os cortical diaphysaire, provoquant un retard de réparation dû à un défaut de minéralisation de l’ostéoïde. Les travaux réalisés au cours de cette thèse ont permis de caractériser des modèles de lésions osseuses pertinents pour l’étude de la réparation de l’os cortical et spongieux. L’utilisation de ces modèles a permis d’améliorer la compréhension du rôle de deux protéines de la matrice extracellulaire osseuse dans la réparation de cortical et trabéculaire grâce aux modèles de génétique expérimentale. / Long bones consist of cortical and spongious bone tissue, which have different structures and physiological characteristics. Both can heal spontaneously. Bone healing is a complex multi-step process which depends on cells, soluble factors, mechanical environment and bone matrix. Osteopontin (OPN) and Bone Sialoportein (BSP) are extracellular matrix proteins, which have been shown to exert important functions in bone. The aim of this study is to address the role of OPN and BSP in bone repair using experimental genetic strategies. Injured bone models are drilled-hole defects performed in diaphyseal cortical bone or in the epi-metaphyseal region. Bone healing was analyzed by micro-tomography and histomorphometry. Epi-metaphyseal defect healing was characterized and compared to cortical bone repair. In this comparative study, distinct patterns of bone repair have been shown while in both models repair occurs through intramembranous ossification. Diaphyseal defect was rapidly filled with newly bone formed in a centripetal manner within the cortical gap. In contrast, bone formation within the epi-metaphyseal defect was initiated from the depth of the cavity and spread towards the cortical edges, regenerating cancellous bone and albeit not completely cortical wall. Therefore, diaphyseal drill defects appear pertinent for the study of spontaneous cortical healing whereas epi-metaphyseal drill defects appear as appropriate models to investigate spongy bone regeneration. OPN and BSP do not show redundancy in the bone repair process of these two models. Indeed, OPN is mainly involved in trabecular bone repair; its deficiency induced a delay due to impaired bone progression within the epi-metaphyseal cavity. The lack of BSP only delayed cortical bone repair due to an impaired mineralization of the bone matrix. This study permits to characterize pertinent models of cortical and trabecular bone repair. Application of these models added new insights on the involvement of matrix proteins in cortical defect healing and trabecular bone repair using experimental genetic models.

Ostéopontine (OPN)

Bone Sialoprotein (BSP)

Réparation osseuse

Défect

Os cartical

Os trabéculaire

Minéralisation

Tomographie

Histomorphométrie

Osteopontin

Bone sialoprotein

Bone healing

Defect

Cortical bone

Trabecular bone

Tomography

THE EFFECTS OF ESTROGEN-INDUCED STROMAL CELL EFFECTORS, OSTEOPONTIN AND VIMENTIN, ON CHLAMYDIA INFECTIONS IN A NON-POLARIZED CELL CULTURE MODEL

Bowers, Hannah Elizabeth, Hall, Jennifer

04 April 2018

Chlamydia is the most reported sexually transmitted infection in the US and is caused by the obligate intracellular bacterium Chlamydia trachomatis. Typically, this presents as a lower genital tract infection (cervicitis or urethritis), but can ascend to the upper genital tract, causing pelvic inflammatory disease, tubal infertility, epididymitis, or ectopic pregnancy. While chlamydia infections can be cured with a single-dose oral antibiotic, repeat infections are common and having multiple chlamydial infections increases a woman’s risk of developing serious chronic conditions. Previous research has shown that estrogen has a positive effect on C. trachomatis infections—an important finding, connecting fluctuating estrogen levels in females to variance in pathogenesis.The mechanism behind this hormonal influence remains unknown; however, previous work in our laboratory indicates that estrogen-stimulated stromal cell effectors play a role in enhancing C. trachomatis infections in a polarized endometrial epithelial Ishikawa (IK)/stromal (SHT-290) cell co-culture model. Specifically, our data indicate that estrogen exposure stimulates osteopontin and vimentin release from stromal cells in co-culture with endometrial epithelial cells. Furthermore, we noted that Chlamydia-infected, polarized Ishikawa cells exposed to a combination of recombinant osteopontin and estrogen released significantly more infectious chlamydia than cultures exposed to estrogen alone. Most tissue culture models being used today employee non-polarized cells. Given the fact that epithelial cell polarization is known to impact C. trachomatis serovar E development, in the current study we sought to determine if the estrogen-induced stromal cell effectors, osteopontin and vimentin, affect C. trachomatis viability and infectivity in non-polarized Ishikawa cells. Non-polarized Ishikawa cells were exposed to osteopontin or vimentin in the presence or absence of estrogen, infected with C. trachomatis serovar E, and collected for examination of chlamydial infectivity and progeny production. Our initial data show that osteopontin and vimentin impact chlamydial progeny production in a concentration dependent fashion, with higher concentrations of recombinant effectors +/- estrogen significantly decreasing progeny production. These data suggest that polarization of host cells influences the way hormone-stimulated effectors interact with the cell to impact on chlamydial infection. Future research goals are to explore other stromal effectors such as fibronectin with estrogen and to study the cell signaling mechanism osteopontin and vimentin use to affect chlamydial infections in polarized epithelial cell cultures.

Chlamydia

Estrogen

Osteopontin

Vimentin

Internal Medicine

Medical Microbiology

Medical Pathology

Obstetrics and Gynecology

Reproductive and Urinary Physiology

Využití flowcytometrie pro multiplexové analýzy v klinické biochemii / Application of flow cytometry for multiplex analyses in clinical biochemistry

Babušíková, Lucie

January 2012

This thesis discusses the technique of flow cytometry for multiplex analysis and its use in conjunction with imunochemical methods. As part of this work was carried out clinical studies dealing with secondary prevention of myocardial infarction and atherosclerosis in 186 pacientů. In this time represents myocardial infarction worldwide civilizational problem. A number of possible parameters for monitoring atherosclerosis in the world is still an unresolved issue. In the practical part of this work we performed an analysis using Luminex xMAP technology for new parameters (adiponectin, resistin, osteopontin) to predict atherosclerotic disease associated with myocardial infarcion. Also we wanted to see how these parameters are changed in patients after increasing the dose of therapeutic drugs.

Étude de la mécanotransduction dans la scoliose idiopathique de l’adolescence (SIA)

Wong, Guoruey

12 1900

À ce jour, la scoliose idiopathique de l’adolescent (SIA) est la déformation rachidienne la plus commune parmi les enfants. Il est bien connu dans le domaine de recherche sur la SIA que les forces mécaniques, en particulier les forces biomécaniques internes dans le système musculosquelettique, pourraient jouer un rôle majeur dans l’initiation et le développement de la maladie. Cependant, les connaissances sur la transformation des forces et des stimulations mécaniques en activité biochimique sont peu abondantes. Cet axe de recherche est très prometteur et peut nous fournir de nouvelles idées dans le dépistage et le traitement de la SIA. Dans le cadre de cette étude, nous visons à caractériser la mécanotransduction chez les patients atteints de la SIA en employant des techniques novatrices aux niveaux in vivo et in vitro. Antérieurement dans notre laboratoire, nous avons démontré que les niveaux d’Ostéopontine (OPN) plasmatique chez l’humain corrèlent avec la progression et la sévérité de la maladie, et que ces changements sont observables avant le début de la scoliose. En plus, selon la littérature, l’OPN est une molécule sensible à la force mécanique, dont l’expression augmente en réponse dans de nombreux types de cellules chez plusieurs espèces. Toutefois, il n’existe aucune preuve que ce résultat soit valide in vivo chez l’humain. L’hétérogénéité physique et biochimique de la SIA pose un gros défi aux chercheurs. Souvent, il est très difficile de trouver des résultats ayant une grande applicabilité. Les études portant sur les facteurs biomécaniques ne font pas exception à cette tendance. En dépit de tout cela, nous croyons qu’une approche basée sur l’observation des contraintes de cisaillement présentes dans le système musculosquelettique pourrait aider à surmonter ces difficultés. Les contraintes de cisaillement physiologique sont générées par des courants de fluide en mouvement à l’intérieur des os. Aussi, elles sont omniprésentes et universelles chez l’humain, peu importe l’âge, le sexe, la condition physique, etc., ce qui veut dire que l’étudier pourrait fort bien avancer nos connaissances en formant une base fondamentale avec laquelle on pourra mieux comprendre les différences quant à la mécanotransduction chez les patients atteints de la SIA par rapport aux sujets sains. Pour ce projet, donc, nous proposons l’hypothèse que les sujets atteints de la SIA se différencient par leurs réponses respectives à la force mécanique au niveau cellulaire (en termes de l’expression génique) ainsi qu’au niveau in vivo (en termes du marqueur OPN et son récepteur, sCD44). Afin de vérifier la partie de notre hypothèse de recherche concernant l’aspect in vivo, nous avons recruté une cohorte de patients âgés de 9-17 ans, y compris i) des cas pré-chirurgicaux (angle de Cobb > 45°), ii) des cas modérément atteints (angle de Cobb 10-44°), iii) des témoins, et iv) des enfants asymptomatiques à risque de développer la scoliose (selon nos dépistages biochimiques et fonctionnels) d’âge et sexe appariés. Une pression pulsatile et dynamique avec une amplitude variant de 0-4 psi à 0.006 Hz a été appliquée à un des bras de chacun de nos sujets pour une durée de 90 minutes. Au tout début et à chaque intervalle de 30 minutes après l’initiation de la pression, un échantillon de sang a été prélevé, pour pouvoir surveiller les niveaux d’OPN et de sCD44 circulants chez les sujets. Nous avons découvert que le changement des niveaux d’OPN plasmatique, mais pas des niveaux de sCD44, corrélaient avec la sévérité de la difformité rachidienne chez les sujets, ceux ayant une courbe plus prononcée démontrant une ampleur de réponse moins élevée. Pour vérifier la partie de notre hypothèse de recherche concernant la réponse mécanotransductive cellulaire, des ostéoblastes prélevées à 12 sujets ont été mis en culture pour utilisation avec notre appareil (le soi-disant « parallel plate flow chamber »), qui sert à fournir aux ostéoblastes le niveau de contraintes de cisaillement désiré, de manière contrôlée et prévisible. Les sujets étaient tous femelles, âgées de 11-17 ans ; les patients ayant déjà une scoliose possédaient une courbe diagnostiquée comme « double courbe majeure ». Une contrainte fluidique de cisaillement à 2 Pa, 0.5 Hz a été appliquée à chaque échantillon ostéoblastique pour une durée de 90 minutes. Les changements apportés à l’expression génique ont été mesurés et quantifiés par micropuce et qRT-PCR. En réponse à notre stimulation, nous avons trouvé qu’il n’y avait que quelques gènes étant soit différentiellement exprimés, soit inchangés statistiquement dans tous les groupes expérimentaux atteints, en exhibant simultanément la condition contraire chez les témoins. Ces résultats mettent en évidence la grande diversité de la réponse mécanotransductive chez les patients comparés aux contrôles, ainsi qu’entre les sous-groupes fonctionnels de la SIA. Globalement, cette œuvre pourrait contribuer au développement d’outils diagnostiques innovateurs pour identifier les enfants asymptomatiques à risque de développer une scoliose, et évaluer le risque de progression des patients en ayant une déjà. Aussi, dans les années à venir, les profils mécanotransductifs des patients pourraient s’avérer un facteur crucial à considérer cliniquement, particulièrement en concevant ou personnalisant des plans de traitements pour des personnes atteintes. / Adolescent idiopathic scoliosis (AIS) is the most commonly occurring musculoskeletal deformity among children today. It is generally well accepted in scoliosis research that mechanical forces, especially the internal biomechanical forces of the musculoskeletal system, could well have a major role in the induction and pathogenesis of the disease. However, the process by which mechanical loads or stimuli are converted into biochemical activity (mechanotransduction) has not been explored so deeply. This emerging facet of research in AIS holds much promise for new insights into the disease. Here, we aim to characterize mechanotransduction in scoliosis patients using some novel techniques at both the in vivo and in vitro levels. Previously in our lab, we demonstrated that the level of plasma osteopontin (OPN) and sCD44 in the human body is a strong indicator of disease progression and severity, and that these changes are observable before scoliosis onset. In the literature, OPN in vitro is known to be mechanosensitive, showing upregulation in response to mechanical stress in a variety of cell types across many species. However, to the best of the author’s knowledge, no literature exists as to whether this behaviour carries over in vivo in humans. A major difficulty in AIS research is the heterogeneity of the disease, both physically and biochemically. Because of this, many times it is difficult to find results with wide applicability to patients. Study of biomechanical factors in AIS is no exception. We believe, however, that study of fluid shear stress in the musculoskeletal system may be able to solve this problem for mechanotransduction-related issues in AIS. Native physiological fluid shear stresses in humans are experienced in the musculoskeletal system, caused by fluid movement over cells therein. These fluid shear stresses are omnipresent and universal in all humans, regardless of age, gender, fitness level, etc., which means that studying it could very well go a long way towards establishing a fundamental basis of understanding the differences as to mechanotransduction in scoliosis patients as opposed to normal cases. In this project, then, we advanced the hypothesis that AIS patients are distinguishable in the way they respond to mechanical force at both the cellular level (in terms of gene expression) as well as globally at the in vivo level (in terms of the scoliosis marker OPN and its receptor sCD44). To test the in vivo portion of our hypothesis, we recruited a cohort of patients between the ages of 9-17, each one of which fell into one of 4 subject groups: i) surgical cases (pre-surgery, Cobb angle > 45°), ii) moderately affected cases (Cobb angle 10-44°), iii) controls, or iv) asymptomatic children at risk of developing scoliosis matched for age and gender against healthy controls. A dynamic, pulsatile, compressive pressure of variable amplitude from 0-4 psi at 0.006 Hz was applied to the arm of each subject for a period of 90 minutes. Initially and at intervals of 30 minutes after the start of force application, blood samples were taken in order to monitor circulating plasma OPN and sCD44 levels in subjects. We found that the change of circulating OPN levels, but not sCD44 levels, measured in vivo in response to our mechanical stimulation was statistically significantly correlated to status of spinal deformity severity, with more severely affected subjects demonstrating lower magnitudes of ΔOPN. To test the cellular portion of our hypothesis, osteoblasts from severely affected AIS patients and unaffected controls were cultured for use with our parallel plate flow chamber (PPFC) apparatus setup, which permits application of fluid shear stress patterns to cells in a predictable, controllable manner. Subjects were all females who fell into the 11-17 years age range, with scoliotic patients presenting with double major curves. A dynamic, sinusoidal and oscillatory fluid shear stress pattern was applied to osteoblasts at 2 Pa, 0.5 Hz for 90 minutes. Overall gene expression changes across RNA samples as a result of our stimulation were measured using microarray and qRT-PCR approaches. In response, only a very small number of genes are either mutually differentially expressed or statistically unchanged across all functional scoliotic subgroups while having the opposite condition in the control group, indicating a great degree of difference in terms of mechanotransductive response as compared internally between AIS functional subgroups, as well as between control and AIS patients. Globally, this project’s work may contribute to the development of innovative diagnostic tools to identify asymptomatic children at risk of developing scoliosis, and to assess the risk of curve progression at an early stage in those already affected. Also, in years to come, the mechanotransductive profile of a patient could be another integral factor to weigh, clinically, when considering or designing treatment plans for affected persons.

mécanotransduction

scoliose idiopathique

ostéopontine

contraintes de cisaillement fluidique

parallel plate flow chamber

biomécanique

sCD44

outils diagnostiques

mechanotransduction

idiopathic scoliosis

osteopontin

fluid shear stress

biomechanical

diagnostic tools

Efeitos do estrogênio, raloxifeno e extrato de soja rico em genisteína sobre o osso de ratas adultas ovariectomizadas previamente androgenizadas / Effects of estrogen, raloxifene and genistein-rich soy extract on bone of ovariectomized adult female rats and previously androgenized

Condi, Fernanda Lopes de Freitas

08 November 2011

INTRODUÇÃO: O hipoestrogenismo pode determinar perda da massa mineral óssea, diminuindo a qualidade do osso. Assim, vários fármacos são ministrados para evitar esta perda, porém, podem determinar efeitos colaterais importantes. Portanto, questiona-se se o emprego do estrogênio associado a estas substâncias poderia minimizar os efeitos adversos e manteria a massa mineral óssea. Contudo, há poucas informações sobre os efeitos destas combinações. Esta pesquisa tem como objetivo avaliar a ação do estrogênio, raloxifeno e do extrato de soja rico em gensteína, isolado ou combinado no osso de ratas ovariectomizadas. MATERIAIS E MÉTODOS: No nono dia de nascimento, todas as ratas receberam propionato de testosterona (0,1 g/g). No sexto mês de idade, os animais do controle fisiológico foram identificados como GI e receberam apenas o veículo (propilenoglicol em 0,5 ml/dia) durante o experimento e os outros que receberam testosterona foram ovariectomizados e divididos aleatoriamente em seis grupos: GII veículo (controle castrado, n=6); GIII - estrogênio conjugados eqüinos (ECE, (50 g/Kg/dia, n=8); GIV raloxifeno (RAL, 0,75 mg/kg/dia, n=8); GV extrato de soja enriquecido com genisteína (ESG, 300 mg/kg/dia, n=7); GVI ECE + ESG (50 g/Kg/dia + 300 mg/kg/dia, n=7); GVII - ECE+RAL (50 g/Kg/dia + 0,75mg/kg/dia, n=6). Após três meses da cirurgia, os fármacos foram ministrados por 120 dias consecutivos. Posteriormente, os animais foram sacrificados sob anestesia, sendo retirada a tíbia esquerda para rotina histológica. Os cortes histológicos foram corados pela hematoxilina-eosina para avaliar a microarquitetura óssea. Foram feitos procedimentos imunoistoquímicos, de imunofluorescência e PCR para quantificar as principais proteínas ósseas estruturais (colágeno tipo I, osteocalcina, osteopontina e osteoprotegerina), bem como de seus respectivos RNA mensageiros. Os dados foram analisados pelos testes de ANOVA e Tukey. RESULTADOS: Todos os tratamentos determinaram aumento da quantidade de osso trabecular (p<0,05). As fibras totais de colágeno apresentaram-se aumentadas em todos os grupos tratados, exceto com o raloxifeno. Já as fibras finas de colágeno diminuíram apenas no grupo tratado com estrogênio. As frações de colágeno tipo I, mostraram-se aumentadas nos grupos tratados com estrogênio e sua asssociação com o raloxifeno. O colágeno tipo III esteve aumentado no grupo tratado com estrogênio em associação com extrato de soja rico em genisteína. Em relação às proteínas não colagenosas, a osteoprotegerina apresentou-se aumentada nos grupos tratados com estrogênio, suas associações e com o extrato de soja rico em genisteína. A osteopontina esteve diminuída em todos os grupos tratados e a osteocalcina mostrou-se aumentada apenas no grupo tratado com ralolxifeno, em comparação ao grupo castrado (p<0,05). Não houve diferença estatística significante do PCR em tempo real na análise dos transcritos entre os grupos estudados. CONCLUSÃO: A combinação de estrogênio com raloxifeno ou extrato de soja rico em genisteína não trouxe benefícios adicionais na qualidade do tecido ósseo, como ocorreu com esses fármacos isoladamente / INTRODUCTION: Hypoestrogenism can determine bone mineral loss, resulting in decreased bone quality. To prevent that process, several drugs are administered, which can lead, however, to important side effects. Therefore, it is questionable whether the use of estrogen associated with those substances could minimize the adverse effects and maintain bone mineral mass. There is little information on the effects of those compounds. This research aims to evaluate the action of unopposed estrogen or combined with raloxifene and genistein-rich soy extract on ovariectomized adult female rats. MATERIALS AND METHODS: On the ninth day of birth, rats received, testosterone propionate (0.1 mg / g). On the sixth month, animals in the physiological control were identified as GI and received only the vehicle (propylene glycol at 0.5 ml / day) during the experiment and the other which was administered testosterone underwent ovariectomy and divided randomly into six groups: GII - vehicle (control castrated, n = 6); GIII - conjugated equine estrogen (CEE, 50 mg / kg / day, n = 8); GIV - raloxifene (RAL, 0.75 mg / kg / day, n = 8) ; GV - soy extract enriched with genistein (ESG, 300 mg / kg / day, n = 7), GVI - ECE + ESG (50 mg / kg / day + 300 mg / kg / day, n = 7); GVII - ECE + RAL (50 mg / kg / day + 0.75mg/kg/day, n = 6).Three months after the surgery, drugs were consecutively administered for 120 days. Subsequently, the animals were sacrificed on anesthesia and their left tibiae were removed for routine histology. The histological sections were stained by hematoxylin-eosin to evaluate bone microarchitecture. Immunohistochemical, immunofluorescence and PCR procedures were performed to quantify the main structural bone proteins (type I collagen, osteocalcin, osteopontin, and osteoprotegerin) as well as their mRNA. The data were analyzed by ANOVA and Tukey test. RESULTS: All treatments led to increased amounts of trabecular bone (p <0.05). The total collagen fibers had to be enlarged in all treated groups, except with raloxifene. Already thin collagen fibers decreased only in the group treated with estrogen. The fractions of type I collagen, were increased in groups treated with estrogen and its asssociação with raloxifene. Type III collagen was increased in the group treated with estrogen in combination with soybean extract rich in genistein. Regarding the non-collagenous proteins, the increased osteoprotegerin presented in groups treated with estrogen, and their associations with soy extract rich in genistein. The osteopontin was decreased in all treated groups and osteocalcin was increased only in the treated group ralolxifeno, compared to the castrated group (p <0.05). There was no statistically significant difference from the real-time PCR analysis of transcribed between the groups. CONCLUSION: The combination of estrogen with raloxifene or genistein-rich soy extract was uncapable of bringing additional benefits to the quality of bone tissue as observed with those drugs alone

Bone and bones

Colágeno tipo I

Colágeno tipo III

Collagen type I

Collagen type III

Estrogênios

Estrogens

Genistein

Genisteína

Osso e ossos

Osteocalcin

Osteocalcina

Osteopontin

Osteopontina

Osteoprotegerin

Osteoprotegerina

Ovariectomy

Raloxifene

Raloxifeno

Ratos wistar

Variectomia

Wistar rats

Étude de la mécanotransduction dans la scoliose idiopathique de l’adolescence (SIA)

Wong, Guoruey

12 1900

À ce jour, la scoliose idiopathique de l’adolescent (SIA) est la déformation rachidienne la plus commune parmi les enfants. Il est bien connu dans le domaine de recherche sur la SIA que les forces mécaniques, en particulier les forces biomécaniques internes dans le système musculosquelettique, pourraient jouer un rôle majeur dans l’initiation et le développement de la maladie. Cependant, les connaissances sur la transformation des forces et des stimulations mécaniques en activité biochimique sont peu abondantes. Cet axe de recherche est très prometteur et peut nous fournir de nouvelles idées dans le dépistage et le traitement de la SIA. Dans le cadre de cette étude, nous visons à caractériser la mécanotransduction chez les patients atteints de la SIA en employant des techniques novatrices aux niveaux in vivo et in vitro. Antérieurement dans notre laboratoire, nous avons démontré que les niveaux d’Ostéopontine (OPN) plasmatique chez l’humain corrèlent avec la progression et la sévérité de la maladie, et que ces changements sont observables avant le début de la scoliose. En plus, selon la littérature, l’OPN est une molécule sensible à la force mécanique, dont l’expression augmente en réponse dans de nombreux types de cellules chez plusieurs espèces. Toutefois, il n’existe aucune preuve que ce résultat soit valide in vivo chez l’humain. L’hétérogénéité physique et biochimique de la SIA pose un gros défi aux chercheurs. Souvent, il est très difficile de trouver des résultats ayant une grande applicabilité. Les études portant sur les facteurs biomécaniques ne font pas exception à cette tendance. En dépit de tout cela, nous croyons qu’une approche basée sur l’observation des contraintes de cisaillement présentes dans le système musculosquelettique pourrait aider à surmonter ces difficultés. Les contraintes de cisaillement physiologique sont générées par des courants de fluide en mouvement à l’intérieur des os. Aussi, elles sont omniprésentes et universelles chez l’humain, peu importe l’âge, le sexe, la condition physique, etc., ce qui veut dire que l’étudier pourrait fort bien avancer nos connaissances en formant une base fondamentale avec laquelle on pourra mieux comprendre les différences quant à la mécanotransduction chez les patients atteints de la SIA par rapport aux sujets sains. Pour ce projet, donc, nous proposons l’hypothèse que les sujets atteints de la SIA se différencient par leurs réponses respectives à la force mécanique au niveau cellulaire (en termes de l’expression génique) ainsi qu’au niveau in vivo (en termes du marqueur OPN et son récepteur, sCD44). Afin de vérifier la partie de notre hypothèse de recherche concernant l’aspect in vivo, nous avons recruté une cohorte de patients âgés de 9-17 ans, y compris i) des cas pré-chirurgicaux (angle de Cobb > 45°), ii) des cas modérément atteints (angle de Cobb 10-44°), iii) des témoins, et iv) des enfants asymptomatiques à risque de développer la scoliose (selon nos dépistages biochimiques et fonctionnels) d’âge et sexe appariés. Une pression pulsatile et dynamique avec une amplitude variant de 0-4 psi à 0.006 Hz a été appliquée à un des bras de chacun de nos sujets pour une durée de 90 minutes. Au tout début et à chaque intervalle de 30 minutes après l’initiation de la pression, un échantillon de sang a été prélevé, pour pouvoir surveiller les niveaux d’OPN et de sCD44 circulants chez les sujets. Nous avons découvert que le changement des niveaux d’OPN plasmatique, mais pas des niveaux de sCD44, corrélaient avec la sévérité de la difformité rachidienne chez les sujets, ceux ayant une courbe plus prononcée démontrant une ampleur de réponse moins élevée. Pour vérifier la partie de notre hypothèse de recherche concernant la réponse mécanotransductive cellulaire, des ostéoblastes prélevées à 12 sujets ont été mis en culture pour utilisation avec notre appareil (le soi-disant « parallel plate flow chamber »), qui sert à fournir aux ostéoblastes le niveau de contraintes de cisaillement désiré, de manière contrôlée et prévisible. Les sujets étaient tous femelles, âgées de 11-17 ans ; les patients ayant déjà une scoliose possédaient une courbe diagnostiquée comme « double courbe majeure ». Une contrainte fluidique de cisaillement à 2 Pa, 0.5 Hz a été appliquée à chaque échantillon ostéoblastique pour une durée de 90 minutes. Les changements apportés à l’expression génique ont été mesurés et quantifiés par micropuce et qRT-PCR. En réponse à notre stimulation, nous avons trouvé qu’il n’y avait que quelques gènes étant soit différentiellement exprimés, soit inchangés statistiquement dans tous les groupes expérimentaux atteints, en exhibant simultanément la condition contraire chez les témoins. Ces résultats mettent en évidence la grande diversité de la réponse mécanotransductive chez les patients comparés aux contrôles, ainsi qu’entre les sous-groupes fonctionnels de la SIA. Globalement, cette œuvre pourrait contribuer au développement d’outils diagnostiques innovateurs pour identifier les enfants asymptomatiques à risque de développer une scoliose, et évaluer le risque de progression des patients en ayant une déjà. Aussi, dans les années à venir, les profils mécanotransductifs des patients pourraient s’avérer un facteur crucial à considérer cliniquement, particulièrement en concevant ou personnalisant des plans de traitements pour des personnes atteintes. / Adolescent idiopathic scoliosis (AIS) is the most commonly occurring musculoskeletal deformity among children today. It is generally well accepted in scoliosis research that mechanical forces, especially the internal biomechanical forces of the musculoskeletal system, could well have a major role in the induction and pathogenesis of the disease. However, the process by which mechanical loads or stimuli are converted into biochemical activity (mechanotransduction) has not been explored so deeply. This emerging facet of research in AIS holds much promise for new insights into the disease. Here, we aim to characterize mechanotransduction in scoliosis patients using some novel techniques at both the in vivo and in vitro levels. Previously in our lab, we demonstrated that the level of plasma osteopontin (OPN) and sCD44 in the human body is a strong indicator of disease progression and severity, and that these changes are observable before scoliosis onset. In the literature, OPN in vitro is known to be mechanosensitive, showing upregulation in response to mechanical stress in a variety of cell types across many species. However, to the best of the author’s knowledge, no literature exists as to whether this behaviour carries over in vivo in humans. A major difficulty in AIS research is the heterogeneity of the disease, both physically and biochemically. Because of this, many times it is difficult to find results with wide applicability to patients. Study of biomechanical factors in AIS is no exception. We believe, however, that study of fluid shear stress in the musculoskeletal system may be able to solve this problem for mechanotransduction-related issues in AIS. Native physiological fluid shear stresses in humans are experienced in the musculoskeletal system, caused by fluid movement over cells therein. These fluid shear stresses are omnipresent and universal in all humans, regardless of age, gender, fitness level, etc., which means that studying it could very well go a long way towards establishing a fundamental basis of understanding the differences as to mechanotransduction in scoliosis patients as opposed to normal cases. In this project, then, we advanced the hypothesis that AIS patients are distinguishable in the way they respond to mechanical force at both the cellular level (in terms of gene expression) as well as globally at the in vivo level (in terms of the scoliosis marker OPN and its receptor sCD44). To test the in vivo portion of our hypothesis, we recruited a cohort of patients between the ages of 9-17, each one of which fell into one of 4 subject groups: i) surgical cases (pre-surgery, Cobb angle > 45°), ii) moderately affected cases (Cobb angle 10-44°), iii) controls, or iv) asymptomatic children at risk of developing scoliosis matched for age and gender against healthy controls. A dynamic, pulsatile, compressive pressure of variable amplitude from 0-4 psi at 0.006 Hz was applied to the arm of each subject for a period of 90 minutes. Initially and at intervals of 30 minutes after the start of force application, blood samples were taken in order to monitor circulating plasma OPN and sCD44 levels in subjects. We found that the change of circulating OPN levels, but not sCD44 levels, measured in vivo in response to our mechanical stimulation was statistically significantly correlated to status of spinal deformity severity, with more severely affected subjects demonstrating lower magnitudes of ΔOPN. To test the cellular portion of our hypothesis, osteoblasts from severely affected AIS patients and unaffected controls were cultured for use with our parallel plate flow chamber (PPFC) apparatus setup, which permits application of fluid shear stress patterns to cells in a predictable, controllable manner. Subjects were all females who fell into the 11-17 years age range, with scoliotic patients presenting with double major curves. A dynamic, sinusoidal and oscillatory fluid shear stress pattern was applied to osteoblasts at 2 Pa, 0.5 Hz for 90 minutes. Overall gene expression changes across RNA samples as a result of our stimulation were measured using microarray and qRT-PCR approaches. In response, only a very small number of genes are either mutually differentially expressed or statistically unchanged across all functional scoliotic subgroups while having the opposite condition in the control group, indicating a great degree of difference in terms of mechanotransductive response as compared internally between AIS functional subgroups, as well as between control and AIS patients. Globally, this project’s work may contribute to the development of innovative diagnostic tools to identify asymptomatic children at risk of developing scoliosis, and to assess the risk of curve progression at an early stage in those already affected. Also, in years to come, the mechanotransductive profile of a patient could be another integral factor to weigh, clinically, when considering or designing treatment plans for affected persons.

mécanotransduction

scoliose idiopathique

ostéopontine

contraintes de cisaillement fluidique

parallel plate flow chamber

biomécanique

sCD44

outils diagnostiques

mechanotransduction

idiopathic scoliosis

osteopontin

fluid shear stress

biomechanical

diagnostic tools