Controversies surrounding segments and parasegments in Onychophora

Franke, Franziska Anni, Mayer, Georg

15 December 2014

Arthropods typically show two types of segmentation: the embryonic parasegments and the adult segments that lie out of register with each other. Such a dual nature of body segmentation has not been described from Onychophora, one of the closest arthropod relatives. Hence, it is unclear whether onychophorans have segments, parasegments, or both, and which of these features was present in the last common ancestor of Onychophora and Arthropoda. To address this issue, we analysed the expression patterns of the "segment polarity genes" engrailed, cubitus interruptus, wingless and hedgehog in embryos of the onychophoran Euperipatoides rowelli. Our data revealed that these genes are expressed in repeated sets with a specific anterior-to-posterior order along the body in embryos of E. rowelli. In contrast to arthropods, the expression occurs after the segmental boundaries have formed. Moreover, the initial segmental furrow retains its position within the engrailed domain throughout development, whereas no new furrow is formed posterior to this domain. This suggests that no re-segmentation of the embryo occurs in E. rowelli. Irrespective of whether or not there is a morphological or genetic manifestation of parasegments in Onychophora, our data clearly show that parasegments, even if present, cannot be regarded as the initial metameric units of the onychophoran embryo, because the expression of key genes that define the parasegmental boundaries in arthropods occurs after the segmental boundaries have formed. This is in contrast to arthropods, in which parasegments rather than segments are the initial metameric units of the embryo. Our data further revealed that the expression patterns of "segment polarity genes" correspond to organogenesis rather than segment formation. This is in line with the concept of segmentation as a result of concerted evolution of individual periodic structures rather than with the interpretation of \"segments\" as holistic units.

Gliederfüßler

Arthropoda

Morphogenese

Segmentierung

Stummelfüßler

Onychophora

Arthropoda

morphogenic segmentation

Onychophora

ddc:590

ddc:595

Paracrine factors of vascular endothelial cells facilitate cardiomyocyte differentiation of mouse embryonic stem cells

日高, 京子, Hidaka, Kyoko, 三輪, 佳子, Miwa, Keiko, 室原, 豊明, Murohara, Toyoaki, 笠井, 謙次, Kasai, Kenji, 佐賀, 信介, Saga, Shinsuke, 森崎, 隆幸, Morisaki, Takayuki, 上田, 裕一, Ueda, Yuichi, 児玉, 逸雄, Kodama, Itsuo

January 2008

No description available.

Embryonic stem cell

Cardiac cell

Vascular endothelial cell

Paracrine factor

Cardiomyogenesis

Nkx2.5

Bone morphogenic protein

Wnt

Cyclooxygenase

Nitric oxide synthase

The role of bone morphogenic proteins in human aortic valvular endothelial cells

Ankeny, Randall Francis

01 April 2010

In the United States alone, there are nearly 49,000 aortic valvular repairs or replacements each year, and this number is expected to rise. Unlike atherosclerosis, the molecular mechanisms contributing to this side-dependent disease development are limited, which contributes to the lack of therapeutic treatments. Once clinically manifested, options for treatment are limited to valvular replacement or repair. Therefore understanding the mechanobiology and cellular responses in aortic valves may provide important information for disease development and possible biomarkers or therapeutic treatments. Aortic valve disease occurs on one side of the valvular leaflet. The fibrosa side, which faces the aorta, is prone to disease development, while the ventricularis remains relatively unaffected. The hemodynamics is hypothesized to play a role in side dependent disease formation. The fibrosa endothelium is exposed to oscillatory flow while the ventricularis endothelium is exposed to a pulsatile unidirectional flow. Previous work by our group has shown that bone morphogenic protein-4 is a mechanosensitve inflammatory cytokine in the vasculature. In the following study, we proposed that mechanosensitive bone morphogenic proteins play a role in side specific aortic valve disease. Recently, the bone morphogenic proteins (BMPs) have been found in calcified human aortic valves. Furthermore, BMP-4 in vascular endothelial cells is increased by oscillatory shear stress. However, the role of the BMPs in aortic valve endothelial cells and their contribution to aortic valve calcification remains unstudied. Therefore, the overall objective of this dissertation was to investigate how disease and hemodynamics affects the BMP pathway and inflammation in human aortic valvular endothelial cells. By understanding how the bone morphogenic proteins are regulated and what roles they play in aortic valve disease, we will have better insight into endothelial cell regulation and contribution in aortic valve pathology. The central hypothesis of this project was that oscillatory flow conditions on the fibrosa side of the aortic valve stimulate endothelial cells to produce BMP-4, which then activates an inflammatory response leading to accumulation of inflammatory cells, calcification, and ultimately valve impairment. This hypothesis was tested through three specific aims using calcified human aortic valves, non-calcified human aortic valves, and side-specific human aortic valve endothelial cells. We first worked to establish the importance of the BMPs in the aortic valvular endothelium by looking at two populations of aortic valves: 1) calcified human aortic valves were obtained from patients undergoing valve replacement, and 2) non-calcified valves were obtained from recipient hearts of patients undergoing heart transplantation. Using immunohistochemical techniques, we examined the BMPs, BMP antagonists, and SMADs. Surprisingly, we identified that the ventricularis endothelium had higher BMP expression in both calcified and non-calcified human aortic valves. Furthermore, no disease-dependent BMP expression was detected. Next, we examined the BMP antagonists and found that there was robust BMP antagonist expression in the ventricularis endothelium and very low expression in the fibrosa endothelium. Finally, to determine if the BMP pathway was activated, we stained for the canonical BMP signaling molecule phosphorylated-SMAD 1/5/8 and found increased staining in the endothelium of calcified human aortic valves. Furthermore, a significant increase in SMAD 1/5/8 phosphorylation was seen in the endothelium of calcified fibrosa when compared to the non-calcified fibrosa. Finally, inhibitory SMAD 6 was significantly increased in the ventricularis endothelium of non-calcified human aortic valves. These findings suggest that preferential activation of BMP pathways, controlled by the balance between the BMPs and their inhibitors, play an important role in side-dependent calcification of human AVs. We next wanted to examine the role of shear stress in BMP regulation, but before doing so, we needed to examine the endothelial response to fluid shear stress to validate the phenotype of our isolated human aortic valve endothelial cells. KLF2 and eNOS expression in vascular endothelial cells has been shown to be increased by laminar flow and to have anti-inflammatory effects by decreasing VCAM-1 levels. Conversely, oscillatory shear stress has been shown to increase NF-kappa B translocation and increase ICAM-1 and E-selectin. We found laminar shear stress causes human aortic valve endothelial cells align parallel to flow and have robust increases of KLF2 and eNOS and decreases in VCAM-1 levels; however, laminar shear-treated cells had similar levels of NF-kappa B activation as oscillatory treated cells while ICAM-1 and E-selectin was not affected by shear stress. In contrast, oscillatory shear had higher levels of monocytes bound which may be due to eNOS's protective effects under laminar shear and robust VCAM-1 expression in oscillatory shear. These studies suggest differential regulation of human aortic valvular endothelial cells than published reports on human aortic endothelial cells which adds to the growing evidence that valvular endothelial cells are phenotypically different than vascular endothelial cells. After verifying the shear response of our endothelial cells, we next determined the shear response of the BMPs and BMP antagonists and described BMPs' effect on inflammation. Previously, BMP-4 has been shown in vitro and in vivo to be increased in endothelial cells exposed to oscillatory flow, while the closely-related BMP-2 has not been shown to be shear sensitive. In this study we have found that BMPs -2 and -4 are shear sensitive while BMP-6 is not. Furthermore, we have found that follistatin is decreased by laminar flow only in the ventricularis, while MGP1 is decreased in the fibrosa valvular endothelial cells under both oscillatory and laminar flow. Finally, incubation with noggin did not affect monocyte adhesion after shear, suggesting differential regulation of inflammation in human aortic valvular endothelial cells. By addressing the specific aims of this project, we have investigate disease- and side-dependent valvular endothelial BMP expression in vivo, shear regulation of valvular endothelial inflammation in vitro, and shear regulation of valvular endothelial BMP expression in vitro. Our results suggest that the BMP pathway is playing a role in side specific aortic valve disease development; however, regulation of the BMPs does not appear to be shear regulated in vivo. Other factors that may be affecting BMP production include including pulsatile pressures, bending stresses, cyclic stretch, and humeral stimuli present in the blood of the patients. However, in vitro we have found BMPs -2 and -4 to be shear-regulated in human aortic valvular endothelial cells. Shear-induced inflammation in human aortic valve endothelial cells seems to be VCAM-1-dependent, and BMP-independent. Finally, by identifying factors that are modulated in calcific- and shear-dependent processes, new targets for the early detection of aortic valve disease can be determined and new therapeutics to slow or stop the progression of aortic valve disease may be discovered.

Calcification

Aortic valve

Bone morphogenic proteins

Endothelial cell

Aortic valve Surgery

Biomechanics

Hemodynamics

Vascular endothelium

Bone morphogenetic proteins

Identification and Expression Analysis of Zebrafish Glypicans during Embryonic Development

Brand, Michael, Gupta, Mansi

02 December 2015

Heparan sulfate Proteoglycans (HSPG) are ubiquitous molecules with indispensable functions in various biological processes. Glypicans are a family of HSPG’s, characterized by a Gpi-anchor which directs them to the cell surface and/or extracellular matrix where they regulate growth factor signaling during development and disease. We report the identification and expression pattern of glypican genes from zebrafish. The zebrafish genome contains 10 glypican homologs, as opposed to six in mammals, which are highly conserved and are phylogenetically related to the mammalian genes. Some of the fish glypicans like Gpc1a, Gpc3, Gpc4, Gpc6a and Gpc6b show conserved synteny with their mammalian cognate genes. Many glypicans are expressed during the gastrulation stage, but their expression becomes more tissue specific and defined during somitogenesis stages, particularly in the developing central nervous system. Existence of multiple glypican orthologs in fish with diverse expression pattern suggests highly specialized and/or redundant function of these genes during embryonic development.

Biotechnologie

regenerative Therapie

Zebrafish

Multiple alignment calculation

Sequence databases

Sequence alignment

Sulfates

Embryos

Morphogenic segmentation

Somites

ddc:570

rvk:WD 15000

rvk:XA 10000

Análise do efeito do Tamoxifeno e da BMP-7 em modelo experimental de fibrose peritoneal em ratos com doença renal crônica / Analysis of the effect of tamoxifen and BMP-7 in an experimental model of peritoneal fibrosis in rats with chronic kidney disease

Silva, Filipe Miranda de Oliveira

02 September 2015

A diálise peritoneal constitui uma importante opção terapêutica para o paciente com doença renal crônica (DRC) em estágio 5. Entretanto, a médio-longo prazo, alterações morfofuncionais relacionadas a vários fatores, como bioincompatibilidade das soluções de diálise e infecções peritoneais, entre outros, estabelecem um processo inflamatório e fibrótico na membrana peritoneal, levando à perda da eficiência deste método dialítico. O estado urêmico destes pacientes é um agravante, pois intensifica o processo inflamatório da membrana peritoneal. Estratégias terapêuticas que desacelerem o processo de fibrose da membrana peritoneal dos pacientes com DRC em diálise são de extrema importância. Neste contexto, o presente estudo teve como objetivo estabelecer um modelo de peritonite fibrosante associado à DRC com uremia, que mimetiza a situação clínica, e analisar, neste modelo, o efeito de duas moléculas antifibróticas, o tamoxifeno (TAM) e a BMP-7 (bonemorphogenic protein-7). A DRC com uremia foi induzida em ratos Wistar através da administração de dieta rica em adenina, por um período de 30 dias. Nos últimos 15 dias, com o estado de uremia já estabelecido, os animais receberam injeções intraperitoneais de gluconato de clorexidina para a indução da fibrose peritoneal (FP). Os tratamentos com tamoxifeno (10mg/Kg/dia, por gavagem) e BMP-7 (30ug/Kg, injeções intraperitoneais a cada 3 dias) foram iniciados junto com a indução da fibrose peritoneal. Foram formados 6 grupos experimentais: CONTROLE, animais normais; DRC, animais com doença renal crônica; FP, animais com fibrose peritoneal; DRC/FP, animais com DRC e FP mimetizando a situação clínica; DRC/FP+TAM, animais com DRC e FP tratados com tamoxifeno; e DRC/FP+BMP7, animais com DRC e FP tratados com BMP-7. Durante os 30 dias de seguimento do estudo foram verificados o peso, a pressão arterial, ureia e creatinina séricas dos animais. Ao término deste período os animais foram sacrificados e o peritônio foi removido e submetido às análises: a) histológica, para avaliar o grau de espessamento (Tricrômio de Masson); b) imunohistoquímica, para localizar e quantificar a presença de células inflamatórias (macrófagos, linfócitos T), miofibroblastos (?-actina) e a atividade de proliferação celular (PCNA); c) análise de citocinas pró-inflamatórias (TNF-alfa, IL-1beta e IL-6) no tecido peritoneal tanto em nível de RNAm, através de PCR em tempo real, como também em nível proteico, através de multiplex; d) PCR em tempo real para determinar a expressão dos componentes da matriz extracelular (colágeno III e fibronectina) e de fatores fibrogênicos (TGF-beta1 e FSP-1). Além disso, com o objetivo de estudar a possível via de sinalização associada à fibrose peritoneal, foi analisada a expressão de SMAD 3 e SMAD 7 no peritônio através de PCR em tempo real e imunohistoquímica para SMAD 3 fosforilada. Por fim, a função peritoneal foi analisada através do teste de ultrafiltração e massa transferida de glicose (MTG). Os dados da evolução ponderal mostraram que, enquanto os animais dos grupos Controle e FP tiveram um ganho de peso significativo em relação ao primeiro dia do protocolo (28% e 18%, respectivamente), os animais dos demais grupos perderam peso significativamente, em média, 26% em relação ao primeiro dia. Todos os animais que receberam dieta rica em adenina e que, portanto, desenvolveram DRC, apresentaram hipertensão arterial, detectada nos dias 15 e 30 do estudo (média de 173mmHg no dia 15 e 172mmHg no dia 30). Confirmando o estabelecimento de DRC com uremia, os animais que receberam dieta rica em adenina apresentaram níveis séricos significativamente elevados de uréia (em média 170 mg/dL no dia 15 e 286 mg/dL no dia 30) e creatinina (média de 0,97 mg/dL no dia 15 e 1,82 mg/dL no dia 30). Os tratamentos com TAM e BMP-7 não influenciaram significativamente nestes parâmetros. A análise da membrana peritoneal dos animais dos grupos experimentais FP e DRC/FP revelou um espessamento significativo da membrana peritoneal (130 ± 33um e 132 ± 26?m, respectivamente vs 36 ± 2um e 27 ±6 um nos grupos CONTROLE e DRC; p < 0,001) bem como a presença de células inflamatórias. Os tratamentos com TAM e BMP7 foram eficazes em proteger a membrana peritoneal contra o espessamento (42 ± 2?m e 53 ± 7?m, respectivamente; p < 0,001 vs DRC/FP) e contra o infiltrado inflamatório. Além disso, no que se refere aos miofibroblastos, células efetoras da fibrogênese detectadas pela marcação de ?-actina, foi encontrado uma marcação significativa de alfa-actina no peritônio dos grupos FP e DRC/FP (p < 0,01 vs CONTROLE), sendo que os tratamentos com TAM e BMP7 protegeram o peritônio da proliferação maciça de miofibroblastos, confirmada pela expressão de PCNA de forma significativa. Com relação à detecção de citocinas pró-inflamatórias, a análise por PCR em tempo real nos animais do grupo DRC mostrou um aumento significativo da expressão no peritônio de TNF-alfa e IL-1beta comparado ao grupo CONTROLE. A expressão dessas citocinas também se mostrou aumentada no peritônio dos animais dos grupos e DRC/FP. Os tratamentos com TAM e BMP7 reduziram a expressão de TNF-alfa e IL-1beta de forma significativa em relação ao grupo DRC/PF (p < 0,01). O reflexo destes resultados pode ser observado com o ensaio por multiplex em que a presença dessas citocinas em sua forma proteica foi encontrada em quantidades significativas no peritônio dos animais com FP e uremia associada à FP em relação ao grupo CONTROLE. Os tratamentos com TAM e BMP7 reduziram a presença dessas citocinas de forma significativa (p < 0,01 vs DRC/FP). Como esperado, a presença de RNAm de componentes da matriz extracelular foi significativamente maior nos grupos FP e DRC/FP, comparados ao grupo CONTROLE. De fato, a expressão de colágeno III foi maior nos grupos FP e DRC/FP (3,4 ± 1 e 10,3 ± 2,4 UI, respectivamente; p < 0,01 vs CONTROLE), bem como de fibronectina nos grupos (6,5 ± 0,8 e 29,2 ± 1 UI, respectivamente; p < 0,01 vs CONTROLE). Os animais tratados com TAM e BMP7 apresentaram uma diminuição significativa tanto da expressão de colágeno III (1,5±0,9 e 0,2±0,1 UI, respectivamente; p < 0,01 vs DRC/FP), como da expressão de fibronectina (6,6±1,2 e 9,7±0,5 UI, respectivamente; p < 0,01 vs DRC/FP), confirmando um efeito anti-fibrótico dessas drogas. Ainda, enquanto nos grupos FP e DRC/FP a expressão de TGF-? foi significativamente maior em relação ao grupo CONTROLE (13,2±0,9 e 30,3±0,1 UI, respectivamente; p < 0,01), TAM e BMP7 diminuíram a expressão de TGF-beta (17,7±0,2 e 16,2±0,1 UI, respectivamente; p < 0,01 vs DRC/FP). Padrão similar foi encontrado com a expressão do RNAm para FSP-1 em que houve um aumento significativo da expressão desse gene nos grupos FP e DRC/FP, com significativo bloqueio nos animais tratados com TAM e BMP7 (p < 0,01 vs DRC/FP). Com relação à análise das vias de sinalização possivelmente envolvidas no processo, a expressão de SMAD 3 foi significativamente maior nos grupos FP e DRC/FP (3,7±0,3 e 4,6±0,3 UI, respectivamente) em relação aos grupos CONTROLE e DRC (1±0,2 e 1,3±0,6 UI, respectivamente; p < 0,01). Os tratamentos com TAM e BMP7 diminuíram a expressão da SMAD 3 no peritônio (1,1±0,6 e 1,1±0,7 UI, respectivamente; p < 0,01 vs DRC/FP). Contudo TAM e BMP7 aumentaram significativamente a expressão de SMAD 7 (2,8±0,5 e 3,7±0,5 UI, respectivamente; p < 0,01 vs DRC/FP), uma proteína contra reguladora da via do TGF-beta, capaz de bloquear a expressão de fatores pró-fibróticos bem como de fatores inflamatórios. Finalmente, os grupos tratados TAM e BMP7 tiveram a função do peritônio preservada quando comparados aos grupos FP e DRC/FP, verificado pela manutenção da capacidade de ultrafiltração e de reduzir a MTG. Em resumo, tamoxifeno e BMP7 foram capazes de bloquear o espessamento da membrana peritoneal, proteger o peritônio contra a infiltração de células inflamatórias e de miofibroblastos, além de diminuir a proliferação celular no peritônio. Estes tratamentos também foram eficazes em diminuir significativamente a expressão dos fatores pró-fibróticos e das citocinas inflamatórias. Com relação às SMADs, os tratamentos com TAM e BMP7 foram eficazes em bloquear a expressão de SMAD 3, bem como aumentar a expressão de SMAD 7. Os resultados do presente estudo sugerem que tamoxifeno e BMP7 protegem o peritônio no modelo de fibrose peritoneal desenvolvido em ratos com DRC e uremia, possivelmente devido aos seus efeitos anti-inflamatórios e anti-fibróticos / Peritoneal dialysis is an important therapeutic option for patients with stage 5 chronic kidney disease (CKD). However, at medium and long term, morphological and functional changes related to various factors such as bioincompatibility of dialysis solutions and peritoneal infections, among others, establish an inflammatory and fibrotic process in the peritoneal membrane, leading to a loss of dialysis efficiency. The uremic state of these patients aggravates this situation because it intensifies inflammation of the peritoneal membrane. Therapeutic strategies that slow the process of fibrosis of the peritoneal membrane of patients with CKD on dialysis are extremely important. In this context, the present study aimed to establish a model of peritoneal fibrosis associated with CKD with uremia, that mimics the clinical situation, and analyze the effect of two antifibrotic molecules, tamoxifen (TAM) and the BMP7 (bone morphogenic protein-7), in the proposed model. CKD with uremia was induced in male Wistar rats by adenine in the diet during a period of 30 days. After 15 days, with the state of uremia already established, animals received intraperitoneal injections of chlorhexidine gluconate, for the induction of peritoneal fibrosis (PF). Treatment with TAM (10mg/Kg/day by gavage) and BMP7 (30ug/Kg, intraperitoneal injections every 3 days) were initiated along with the induction of peritoneal fibrosis. Six groups were induced: CONTROL, normal animals; CKD, animals with chronic kidney disease; PF, animals with peritoneal fibrosis; CKD / PF, animals with CKD and PF mimicking the clinical situation; CKD / PF + TAM, animals with CKD and PF treated with tamoxifen; and CKD / PF + BMP7, animals with CKD and PF treated with BMP7. During 30 days of the follow-up study, weight, blood pressure, serum urea and creatinine of the animals were verified. At the end of this period, the animals were sacrificed and the peritoneum was removed and subjected to the following analysis: a) histology, to assess the degree of thickening (Masson\'s Trichrome); b) immunohistochemistry, to locate and quantify the presence of inflammatory cells (macrophages, T lymphocytes), myofibroblasts (alfa-smoth muscle actin) and cell proliferation activity (PCNA); c) analysis of pro-inflammatory cytokines (TNF-alfa, IL-1beta and IL-6) both in peritoneal tissue mRNA level through real time PCR as well as on protein level by multiplex; d) real-time PCR to determine the expression of extracellular matrix components (collagen III and fibronectin) and fibrogenic factors (TGF-beta and FSP-1). Furthermore, in order to study the possible signaling pathway associated to peritoneal fibrosis, the expression of SMAD 3 and SMAD 7 in the peritoneum was analyzed via real-time PCR and immunohistochemistry for phosphorylated SMAD 3. Finally, the peritoneal function was assessed by ultrafiltration and mass transferred glucose test (MTG). Data from weight gain showed that while animals from CONTROL and PF groups had significant weight gain (28% and 18% respectively) compared to the first day of protocol, the animals of other groups lost weight significantly, on average, 26% compared to the first day. All animals that received diet rich in adenine developed CKD presented by hypertension, detected on days 15 and 30 of the study (average of 173mmHg and 172mmHg respectively). Confirming the establishment of CKD with uremia, the animals that received diet rich in adenine showed serum urea (average 170 mg/dL on day 15 and 286 mg/dL on day 30) and creatinine (average of 0.97 mg/dL on day 15 and 1.82 mg/dL on day 30) significantly higher in the 15th and 30th days. Treatments with TAM and BMP7 did not influence these parameters. The peritoneal membrane analysis of PF and CKD/PF experimental groups showed a significant thickening of the peritoneal membrane (130 ± 33?m and 132 ± 26?m, respectively; p < 0.001 vs 36 ± 2um and 27 ± 6?m in CONTROL and CKD; p < 0.001) with presence of inflammatory cells. The treatments with TAM and BMP7 were effective in protecting the membrane against the thickening (42 ± 2um and 53±7um, respectively; p < 0.001 vs CKD/PF) and inflammatory infiltrate. Furthermore, with regard to myofibroblasts, effectors cells in the fibrogenesis process detected by alfa-SMA presence, it was found a signicantly expression in the peritoneum of PF and CKD/PF (p < 0.01 vs CONTROLE), and the treatment with TAM and BMP7 significantly protected against the presence of myofibroblasts confirmed by the significantly expression of PCNA. With regard to the detection of pro-inflammatory cytokines, analysis by real-time PCR in the animals of CKD group showed a significant increase in TNF-alfa expression in the peritoneum and IL-1beta compared to the CONTROL group. The expression of these cytokines was also increased in the peritoneum of the CKD/PF group. The treatment with TAM and BMP7 significantly reduced TNF-alfa and IL-1beta expression compared to CKD/PF group (p < 0.01).The repercussion of these results can be observed with the multiplex test in which the presence of these cytokines in its protein form were found in significant quantities in the peritoneum of the animals with uremia associated with PF compared to CONTROL group. The treatment with TAM and BMP7 significantly reduced the presence of these cytokines (p < 0.01 vs CKD/PF). As expected, the mRNA expression of extracellular matrix components was significantly elevated in the PF group and CKD/PF compared to the control group. Indeed, collagen III mRNA expression was higher in PF and CKD/PF group (3.4 ± 1 and 10.3 ± 2.4 UI, respectively; p < 0.01 vs CONTROL) as well as fibronectin (6.5 ± 0.8 and 29.2 ± 1 UI; respectively; p < 0.01 vs CONTROL). The animals treated with TAM and BMP7 significantly blocked the expression of collagen III (1.5 ± 0.9 and 0.2 ± 0.1 UI, respectively; p < 0.01 vs CKD/PF) and fibronectin (6.6±1.2 and 9.7±0.5 UI, respectively; p < 0.01 vs CKD/PF). Further, while in the PF and CKD/PF groups the expression of TGF-beta (13.2 ± 0.9 UI and 30.3 ± 0.1 UI, respectively; p < 0.01) was significantly higher compared to the CONTROL group, TAM and BMP7 decreased the expression of TGF-beta (17.7 ± 0.2 UI and 16.2 ± 0.1UI, respectively; p < 0.01 vs CKD/PF). A similar trend was found with the expression of FSP-1 mRNA with an increase in expression of this gene in PF and CKD/PF groups (p < 0.01 vs CONTROL), with significant blockage in the animals treated with TAM and BMP7 (p < 0.01 vs CKD/PF). Regarding the analysis of signaling pathways possibly involved in the process, SMAD 3 expression was significantly higher in PF and CKD/PF groups (3.7 ± 0.3 UI and 4.6 ± 0.3 UI, respectively) compared to groups CONTROL and CKD (1 ± 0.2 UI and 1.3 ± 0.6 UI, respectively; p < 0,01). Treatments with TAM and BMP7 decreased the expression of SMAD 3 in the peritoneum (1.1 ± 0.6 UI and 1.1 ± 0.7 UI, respectively; p < 0.01 vs CKD/PF). Yet TAM and BMP7 significantly increased the expression of SMAD 7 (2.8 ± 0.5 and 3.7 ± 0.5, respectively; p < 0.01 vs CKD/PF), a regulatory TGF-beta protein capable of blocking the expression of pro-fibrotic and inflammatory factors. Finally, the treated groups had the function of the peritoneum preserved when compared to the PF and CKD / PF groups, checked through the maintenance of the ultrafiltration capacity and reducing MTG. In summary, the animals treated with TAM and BMP7 had the peritoneum protected from thickening, inflammatory infiltrate, presence of myofibroblasts and cellular proliferation. The treatments were also effective in significantly reduce the expression of pro-fibrotic factors and inflammatory cytokines. Regarding SMADs, treatments with TAM and BMP7 were effective in blocking the expression of SMAD 3 and increase SMAD 7 expression. The results of this study suggest that tamoxifen and BMP7 protected the peritoneum in an experimental model of peritoneal fibrosis developed in uremic rats with CKD, possibly due to their anti-inflammatory and anti-fibrotic properties

Bone morphogenic protein 7 (BMP-7)

Chronic kidney disease

Fibrose peritoneal

Insuficiência renal crônica

Peritoneal fibrosis

Proteína morfogenética óssea-7

Ratos Wistar

Tamoxifen

Tamoxifeno

Uremia

Uremia

Wistar rats

Επιπτώσεις και αποτελέσματα από την ανθρώπινη παρέμβαση στις μορφογενετικές διεργασίες στον κάτω ρου τού Αλφειού ποταμού

Αλεβίζος, Γιώργος

08 July 2011

Η παρούσα εργασία πραγματοποιήθηκε στον Τομέα Γενικής Θαλάσσιας Γεωλογίας και Γεωδυναμικής του Τμήματος Γεωλογίας του Πανεπιστημίου Πατρών. Στο πλαίσιο αυτής, μελετήθηκε ο κάτω ρους του Αλφειού ποταμού και η μορφολογική του εξέλιξη, σε συνδυασμό με τις ανθρώπινες παρεμβάσεις. Σκοπός της εργασίας αυτής είναι η παρουσίαση, η ανάλυση, ο σχολιασμός και η αξιολόγηση των αλλαγών στο που έχει υποστεί ο κάτω ρους του ποταμού. Η εν λόγω περιοχή παρουσιάζει αξιόλογο ενδιαφέρον λόγω των ιδιαίτερων και σύνθετων μορφοκλιματικών συνθηκών που επικρατούν, των τεχνικών έργων της περιοχής και γενικά των επιδράσεων που είναι αποτέλεσμα κυρίως της ολοένα και αυξανόμενης ανθρώπινης παρέμβασης. / This diploma thesis was conducted at the General Department of Marine Geology and Geodynamics, Department of Geology, University of Patras. As part of this work, it was studied the lower weight of the Alfeios River and the morphological evolution, combined with human intervention. The purpose of this work is the presentation, analysis, commentary and evaluation of changes on the lower watercourse of Alfeios river. This area presents considerable interest because of the special and complex morphocimate conditions,the technical projects in the area and generally the effects which are mainly the result of ever-increasing human intervention.

Αλφειός ποταμός

Γεωμορφολογία

Κάτω ρους

Ανθρώπινη παρέμβαση

Τοπογραφικοί χάρτες

551.483 094 952

Alfeios river

Geomorphology

Morphogenic evolution

Lower watercourse

Human intervention

Topographic maps

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Análise do efeito do Tamoxifeno e da BMP-7 em modelo experimental de fibrose peritoneal em ratos com doença renal crônica / Analysis of the effect of tamoxifen and BMP-7 in an experimental model of peritoneal fibrosis in rats with chronic kidney disease

Filipe Miranda de Oliveira Silva

02 September 2015

A diálise peritoneal constitui uma importante opção terapêutica para o paciente com doença renal crônica (DRC) em estágio 5. Entretanto, a médio-longo prazo, alterações morfofuncionais relacionadas a vários fatores, como bioincompatibilidade das soluções de diálise e infecções peritoneais, entre outros, estabelecem um processo inflamatório e fibrótico na membrana peritoneal, levando à perda da eficiência deste método dialítico. O estado urêmico destes pacientes é um agravante, pois intensifica o processo inflamatório da membrana peritoneal. Estratégias terapêuticas que desacelerem o processo de fibrose da membrana peritoneal dos pacientes com DRC em diálise são de extrema importância. Neste contexto, o presente estudo teve como objetivo estabelecer um modelo de peritonite fibrosante associado à DRC com uremia, que mimetiza a situação clínica, e analisar, neste modelo, o efeito de duas moléculas antifibróticas, o tamoxifeno (TAM) e a BMP-7 (bonemorphogenic protein-7). A DRC com uremia foi induzida em ratos Wistar através da administração de dieta rica em adenina, por um período de 30 dias. Nos últimos 15 dias, com o estado de uremia já estabelecido, os animais receberam injeções intraperitoneais de gluconato de clorexidina para a indução da fibrose peritoneal (FP). Os tratamentos com tamoxifeno (10mg/Kg/dia, por gavagem) e BMP-7 (30ug/Kg, injeções intraperitoneais a cada 3 dias) foram iniciados junto com a indução da fibrose peritoneal. Foram formados 6 grupos experimentais: CONTROLE, animais normais; DRC, animais com doença renal crônica; FP, animais com fibrose peritoneal; DRC/FP, animais com DRC e FP mimetizando a situação clínica; DRC/FP+TAM, animais com DRC e FP tratados com tamoxifeno; e DRC/FP+BMP7, animais com DRC e FP tratados com BMP-7. Durante os 30 dias de seguimento do estudo foram verificados o peso, a pressão arterial, ureia e creatinina séricas dos animais. Ao término deste período os animais foram sacrificados e o peritônio foi removido e submetido às análises: a) histológica, para avaliar o grau de espessamento (Tricrômio de Masson); b) imunohistoquímica, para localizar e quantificar a presença de células inflamatórias (macrófagos, linfócitos T), miofibroblastos (?-actina) e a atividade de proliferação celular (PCNA); c) análise de citocinas pró-inflamatórias (TNF-alfa, IL-1beta e IL-6) no tecido peritoneal tanto em nível de RNAm, através de PCR em tempo real, como também em nível proteico, através de multiplex; d) PCR em tempo real para determinar a expressão dos componentes da matriz extracelular (colágeno III e fibronectina) e de fatores fibrogênicos (TGF-beta1 e FSP-1). Além disso, com o objetivo de estudar a possível via de sinalização associada à fibrose peritoneal, foi analisada a expressão de SMAD 3 e SMAD 7 no peritônio através de PCR em tempo real e imunohistoquímica para SMAD 3 fosforilada. Por fim, a função peritoneal foi analisada através do teste de ultrafiltração e massa transferida de glicose (MTG). Os dados da evolução ponderal mostraram que, enquanto os animais dos grupos Controle e FP tiveram um ganho de peso significativo em relação ao primeiro dia do protocolo (28% e 18%, respectivamente), os animais dos demais grupos perderam peso significativamente, em média, 26% em relação ao primeiro dia. Todos os animais que receberam dieta rica em adenina e que, portanto, desenvolveram DRC, apresentaram hipertensão arterial, detectada nos dias 15 e 30 do estudo (média de 173mmHg no dia 15 e 172mmHg no dia 30). Confirmando o estabelecimento de DRC com uremia, os animais que receberam dieta rica em adenina apresentaram níveis séricos significativamente elevados de uréia (em média 170 mg/dL no dia 15 e 286 mg/dL no dia 30) e creatinina (média de 0,97 mg/dL no dia 15 e 1,82 mg/dL no dia 30). Os tratamentos com TAM e BMP-7 não influenciaram significativamente nestes parâmetros. A análise da membrana peritoneal dos animais dos grupos experimentais FP e DRC/FP revelou um espessamento significativo da membrana peritoneal (130 ± 33um e 132 ± 26?m, respectivamente vs 36 ± 2um e 27 ±6 um nos grupos CONTROLE e DRC; p < 0,001) bem como a presença de células inflamatórias. Os tratamentos com TAM e BMP7 foram eficazes em proteger a membrana peritoneal contra o espessamento (42 ± 2?m e 53 ± 7?m, respectivamente; p < 0,001 vs DRC/FP) e contra o infiltrado inflamatório. Além disso, no que se refere aos miofibroblastos, células efetoras da fibrogênese detectadas pela marcação de ?-actina, foi encontrado uma marcação significativa de alfa-actina no peritônio dos grupos FP e DRC/FP (p < 0,01 vs CONTROLE), sendo que os tratamentos com TAM e BMP7 protegeram o peritônio da proliferação maciça de miofibroblastos, confirmada pela expressão de PCNA de forma significativa. Com relação à detecção de citocinas pró-inflamatórias, a análise por PCR em tempo real nos animais do grupo DRC mostrou um aumento significativo da expressão no peritônio de TNF-alfa e IL-1beta comparado ao grupo CONTROLE. A expressão dessas citocinas também se mostrou aumentada no peritônio dos animais dos grupos e DRC/FP. Os tratamentos com TAM e BMP7 reduziram a expressão de TNF-alfa e IL-1beta de forma significativa em relação ao grupo DRC/PF (p < 0,01). O reflexo destes resultados pode ser observado com o ensaio por multiplex em que a presença dessas citocinas em sua forma proteica foi encontrada em quantidades significativas no peritônio dos animais com FP e uremia associada à FP em relação ao grupo CONTROLE. Os tratamentos com TAM e BMP7 reduziram a presença dessas citocinas de forma significativa (p < 0,01 vs DRC/FP). Como esperado, a presença de RNAm de componentes da matriz extracelular foi significativamente maior nos grupos FP e DRC/FP, comparados ao grupo CONTROLE. De fato, a expressão de colágeno III foi maior nos grupos FP e DRC/FP (3,4 ± 1 e 10,3 ± 2,4 UI, respectivamente; p < 0,01 vs CONTROLE), bem como de fibronectina nos grupos (6,5 ± 0,8 e 29,2 ± 1 UI, respectivamente; p < 0,01 vs CONTROLE). Os animais tratados com TAM e BMP7 apresentaram uma diminuição significativa tanto da expressão de colágeno III (1,5±0,9 e 0,2±0,1 UI, respectivamente; p < 0,01 vs DRC/FP), como da expressão de fibronectina (6,6±1,2 e 9,7±0,5 UI, respectivamente; p < 0,01 vs DRC/FP), confirmando um efeito anti-fibrótico dessas drogas. Ainda, enquanto nos grupos FP e DRC/FP a expressão de TGF-? foi significativamente maior em relação ao grupo CONTROLE (13,2±0,9 e 30,3±0,1 UI, respectivamente; p < 0,01), TAM e BMP7 diminuíram a expressão de TGF-beta (17,7±0,2 e 16,2±0,1 UI, respectivamente; p < 0,01 vs DRC/FP). Padrão similar foi encontrado com a expressão do RNAm para FSP-1 em que houve um aumento significativo da expressão desse gene nos grupos FP e DRC/FP, com significativo bloqueio nos animais tratados com TAM e BMP7 (p < 0,01 vs DRC/FP). Com relação à análise das vias de sinalização possivelmente envolvidas no processo, a expressão de SMAD 3 foi significativamente maior nos grupos FP e DRC/FP (3,7±0,3 e 4,6±0,3 UI, respectivamente) em relação aos grupos CONTROLE e DRC (1±0,2 e 1,3±0,6 UI, respectivamente; p < 0,01). Os tratamentos com TAM e BMP7 diminuíram a expressão da SMAD 3 no peritônio (1,1±0,6 e 1,1±0,7 UI, respectivamente; p < 0,01 vs DRC/FP). Contudo TAM e BMP7 aumentaram significativamente a expressão de SMAD 7 (2,8±0,5 e 3,7±0,5 UI, respectivamente; p < 0,01 vs DRC/FP), uma proteína contra reguladora da via do TGF-beta, capaz de bloquear a expressão de fatores pró-fibróticos bem como de fatores inflamatórios. Finalmente, os grupos tratados TAM e BMP7 tiveram a função do peritônio preservada quando comparados aos grupos FP e DRC/FP, verificado pela manutenção da capacidade de ultrafiltração e de reduzir a MTG. Em resumo, tamoxifeno e BMP7 foram capazes de bloquear o espessamento da membrana peritoneal, proteger o peritônio contra a infiltração de células inflamatórias e de miofibroblastos, além de diminuir a proliferação celular no peritônio. Estes tratamentos também foram eficazes em diminuir significativamente a expressão dos fatores pró-fibróticos e das citocinas inflamatórias. Com relação às SMADs, os tratamentos com TAM e BMP7 foram eficazes em bloquear a expressão de SMAD 3, bem como aumentar a expressão de SMAD 7. Os resultados do presente estudo sugerem que tamoxifeno e BMP7 protegem o peritônio no modelo de fibrose peritoneal desenvolvido em ratos com DRC e uremia, possivelmente devido aos seus efeitos anti-inflamatórios e anti-fibróticos / Peritoneal dialysis is an important therapeutic option for patients with stage 5 chronic kidney disease (CKD). However, at medium and long term, morphological and functional changes related to various factors such as bioincompatibility of dialysis solutions and peritoneal infections, among others, establish an inflammatory and fibrotic process in the peritoneal membrane, leading to a loss of dialysis efficiency. The uremic state of these patients aggravates this situation because it intensifies inflammation of the peritoneal membrane. Therapeutic strategies that slow the process of fibrosis of the peritoneal membrane of patients with CKD on dialysis are extremely important. In this context, the present study aimed to establish a model of peritoneal fibrosis associated with CKD with uremia, that mimics the clinical situation, and analyze the effect of two antifibrotic molecules, tamoxifen (TAM) and the BMP7 (bone morphogenic protein-7), in the proposed model. CKD with uremia was induced in male Wistar rats by adenine in the diet during a period of 30 days. After 15 days, with the state of uremia already established, animals received intraperitoneal injections of chlorhexidine gluconate, for the induction of peritoneal fibrosis (PF). Treatment with TAM (10mg/Kg/day by gavage) and BMP7 (30ug/Kg, intraperitoneal injections every 3 days) were initiated along with the induction of peritoneal fibrosis. Six groups were induced: CONTROL, normal animals; CKD, animals with chronic kidney disease; PF, animals with peritoneal fibrosis; CKD / PF, animals with CKD and PF mimicking the clinical situation; CKD / PF + TAM, animals with CKD and PF treated with tamoxifen; and CKD / PF + BMP7, animals with CKD and PF treated with BMP7. During 30 days of the follow-up study, weight, blood pressure, serum urea and creatinine of the animals were verified. At the end of this period, the animals were sacrificed and the peritoneum was removed and subjected to the following analysis: a) histology, to assess the degree of thickening (Masson\'s Trichrome); b) immunohistochemistry, to locate and quantify the presence of inflammatory cells (macrophages, T lymphocytes), myofibroblasts (alfa-smoth muscle actin) and cell proliferation activity (PCNA); c) analysis of pro-inflammatory cytokines (TNF-alfa, IL-1beta and IL-6) both in peritoneal tissue mRNA level through real time PCR as well as on protein level by multiplex; d) real-time PCR to determine the expression of extracellular matrix components (collagen III and fibronectin) and fibrogenic factors (TGF-beta and FSP-1). Furthermore, in order to study the possible signaling pathway associated to peritoneal fibrosis, the expression of SMAD 3 and SMAD 7 in the peritoneum was analyzed via real-time PCR and immunohistochemistry for phosphorylated SMAD 3. Finally, the peritoneal function was assessed by ultrafiltration and mass transferred glucose test (MTG). Data from weight gain showed that while animals from CONTROL and PF groups had significant weight gain (28% and 18% respectively) compared to the first day of protocol, the animals of other groups lost weight significantly, on average, 26% compared to the first day. All animals that received diet rich in adenine developed CKD presented by hypertension, detected on days 15 and 30 of the study (average of 173mmHg and 172mmHg respectively). Confirming the establishment of CKD with uremia, the animals that received diet rich in adenine showed serum urea (average 170 mg/dL on day 15 and 286 mg/dL on day 30) and creatinine (average of 0.97 mg/dL on day 15 and 1.82 mg/dL on day 30) significantly higher in the 15th and 30th days. Treatments with TAM and BMP7 did not influence these parameters. The peritoneal membrane analysis of PF and CKD/PF experimental groups showed a significant thickening of the peritoneal membrane (130 ± 33?m and 132 ± 26?m, respectively; p < 0.001 vs 36 ± 2um and 27 ± 6?m in CONTROL and CKD; p < 0.001) with presence of inflammatory cells. The treatments with TAM and BMP7 were effective in protecting the membrane against the thickening (42 ± 2um and 53±7um, respectively; p < 0.001 vs CKD/PF) and inflammatory infiltrate. Furthermore, with regard to myofibroblasts, effectors cells in the fibrogenesis process detected by alfa-SMA presence, it was found a signicantly expression in the peritoneum of PF and CKD/PF (p < 0.01 vs CONTROLE), and the treatment with TAM and BMP7 significantly protected against the presence of myofibroblasts confirmed by the significantly expression of PCNA. With regard to the detection of pro-inflammatory cytokines, analysis by real-time PCR in the animals of CKD group showed a significant increase in TNF-alfa expression in the peritoneum and IL-1beta compared to the CONTROL group. The expression of these cytokines was also increased in the peritoneum of the CKD/PF group. The treatment with TAM and BMP7 significantly reduced TNF-alfa and IL-1beta expression compared to CKD/PF group (p < 0.01).The repercussion of these results can be observed with the multiplex test in which the presence of these cytokines in its protein form were found in significant quantities in the peritoneum of the animals with uremia associated with PF compared to CONTROL group. The treatment with TAM and BMP7 significantly reduced the presence of these cytokines (p < 0.01 vs CKD/PF). As expected, the mRNA expression of extracellular matrix components was significantly elevated in the PF group and CKD/PF compared to the control group. Indeed, collagen III mRNA expression was higher in PF and CKD/PF group (3.4 ± 1 and 10.3 ± 2.4 UI, respectively; p < 0.01 vs CONTROL) as well as fibronectin (6.5 ± 0.8 and 29.2 ± 1 UI; respectively; p < 0.01 vs CONTROL). The animals treated with TAM and BMP7 significantly blocked the expression of collagen III (1.5 ± 0.9 and 0.2 ± 0.1 UI, respectively; p < 0.01 vs CKD/PF) and fibronectin (6.6±1.2 and 9.7±0.5 UI, respectively; p < 0.01 vs CKD/PF). Further, while in the PF and CKD/PF groups the expression of TGF-beta (13.2 ± 0.9 UI and 30.3 ± 0.1 UI, respectively; p < 0.01) was significantly higher compared to the CONTROL group, TAM and BMP7 decreased the expression of TGF-beta (17.7 ± 0.2 UI and 16.2 ± 0.1UI, respectively; p < 0.01 vs CKD/PF). A similar trend was found with the expression of FSP-1 mRNA with an increase in expression of this gene in PF and CKD/PF groups (p < 0.01 vs CONTROL), with significant blockage in the animals treated with TAM and BMP7 (p < 0.01 vs CKD/PF). Regarding the analysis of signaling pathways possibly involved in the process, SMAD 3 expression was significantly higher in PF and CKD/PF groups (3.7 ± 0.3 UI and 4.6 ± 0.3 UI, respectively) compared to groups CONTROL and CKD (1 ± 0.2 UI and 1.3 ± 0.6 UI, respectively; p < 0,01). Treatments with TAM and BMP7 decreased the expression of SMAD 3 in the peritoneum (1.1 ± 0.6 UI and 1.1 ± 0.7 UI, respectively; p < 0.01 vs CKD/PF). Yet TAM and BMP7 significantly increased the expression of SMAD 7 (2.8 ± 0.5 and 3.7 ± 0.5, respectively; p < 0.01 vs CKD/PF), a regulatory TGF-beta protein capable of blocking the expression of pro-fibrotic and inflammatory factors. Finally, the treated groups had the function of the peritoneum preserved when compared to the PF and CKD / PF groups, checked through the maintenance of the ultrafiltration capacity and reducing MTG. In summary, the animals treated with TAM and BMP7 had the peritoneum protected from thickening, inflammatory infiltrate, presence of myofibroblasts and cellular proliferation. The treatments were also effective in significantly reduce the expression of pro-fibrotic factors and inflammatory cytokines. Regarding SMADs, treatments with TAM and BMP7 were effective in blocking the expression of SMAD 3 and increase SMAD 7 expression. The results of this study suggest that tamoxifen and BMP7 protected the peritoneum in an experimental model of peritoneal fibrosis developed in uremic rats with CKD, possibly due to their anti-inflammatory and anti-fibrotic properties

Fibrose peritoneal

Insuficiência renal crônica

Proteína morfogenética óssea-7

Ratos Wistar

Tamoxifeno

Uremia

Bone morphogenic protein 7 (BMP-7)

Chronic kidney disease

Peritoneal fibrosis

Tamoxifen

Uremia

Wistar rats

Identification and Expression Analysis of Zebrafish Glypicans during Embryonic Development

Brand, Michael, Gupta, Mansi

02 December 2015

Heparan sulfate Proteoglycans (HSPG) are ubiquitous molecules with indispensable functions in various biological processes. Glypicans are a family of HSPG’s, characterized by a Gpi-anchor which directs them to the cell surface and/or extracellular matrix where they regulate growth factor signaling during development and disease. We report the identification and expression pattern of glypican genes from zebrafish. The zebrafish genome contains 10 glypican homologs, as opposed to six in mammals, which are highly conserved and are phylogenetically related to the mammalian genes. Some of the fish glypicans like Gpc1a, Gpc3, Gpc4, Gpc6a and Gpc6b show conserved synteny with their mammalian cognate genes. Many glypicans are expressed during the gastrulation stage, but their expression becomes more tissue specific and defined during somitogenesis stages, particularly in the developing central nervous system. Existence of multiple glypican orthologs in fish with diverse expression pattern suggests highly specialized and/or redundant function of these genes during embryonic development.

Biotechnologie, regenerative Therapie

info:eu-repo/classification/ddc/570

ddc:570

Controversies surrounding segments and parasegments in Onychophora: insights from the expression patterns of four "Segment Polarity Genes" in the Peripatopsid Euperipatoides rowelli

Franke, Franziska Anni, Mayer, Georg

January 2014

Arthropods typically show two types of segmentation: the embryonic parasegments and the adult segments that lie out of register with each other. Such a dual nature of body segmentation has not been described from Onychophora, one of the closest arthropod relatives. Hence, it is unclear whether onychophorans have segments, parasegments, or both, and which of these features was present in the last common ancestor of Onychophora and Arthropoda. To address this issue, we analysed the expression patterns of the "segment polarity genes" engrailed, cubitus interruptus, wingless and hedgehog in embryos of the onychophoran Euperipatoides rowelli. Our data revealed that these genes are expressed in repeated sets with a specific anterior-to-posterior order along the body in embryos of E. rowelli. In contrast to arthropods, the expression occurs after the segmental boundaries have formed. Moreover, the initial segmental furrow retains its position within the engrailed domain throughout development, whereas no new furrow is formed posterior to this domain. This suggests that no re-segmentation of the embryo occurs in E. rowelli. Irrespective of whether or not there is a morphological or genetic manifestation of parasegments in Onychophora, our data clearly show that parasegments, even if present, cannot be regarded as the initial metameric units of the onychophoran embryo, because the expression of key genes that define the parasegmental boundaries in arthropods occurs after the segmental boundaries have formed. This is in contrast to arthropods, in which parasegments rather than segments are the initial metameric units of the embryo. Our data further revealed that the expression patterns of "segment polarity genes" correspond to organogenesis rather than segment formation. This is in line with the concept of segmentation as a result of concerted evolution of individual periodic structures rather than with the interpretation of \"segments\" as holistic units.

info:eu-repo/classification/ddc/590

ddc:590

info:eu-repo/classification/ddc/595

ddc:595

Fetal Mesenchymal Stem Cells Achieve Greater Gene Expression in Vitro, but Less Effective Osteoinduction in Vivo than Adult Mesenchymal Stem Cells

Santiago-Torres, Juan E.

26 December 2014

No description available.

Biology

Biomedical Research

Cellular Biology

Comparative

Health

Medicine

Therapy