Regulation of Lsc activity and role in B cell migration and antigen receptor signaling /

Hu, Jiancheng.

January 2007

Thesis (Ph.D. in Immunology) -- University of Colorado Denver, 2007. / Typescript. Includes bibliographical references (leaves 103-118). Free to UCD affiliates. Online version available via ProQuest Digital Dissertations;

Functional characterisation of key residues in the photopigment melanopsin

Rodgers, Jessica

January 2016

Melanopsin (Opn4) is the opsin photopigment of intrinsically photosensitive retinal ganglion cells (ipRGCs). It has a conserved opsin structure and activation mechanism, yet demonstrates unusual functional properties that suggest it will possess unique structure-function relationships. The aim of this thesis was to characterise key OPN4 residues by examining the impact of non-synonymous mutations on melanopsin function. A genotype-driven screen of a chemically-mutagenized mouse archive led to the identification of a novel Opn4 mutant, S310A, located at a known opsin spectral tuning site. Action spectra from ipRGC and pupil light responses (PLR) of Opn4^S310A mice revealed no change in wavelength of peak sensitivity. However, Opn4^S310A PLR was significantly less sensitive at longer wavelengths, consistent with a short-wavelength shift in spectral sensitivity. This suggests S310A acts as a spectral tuning site in melanopsin. Next, the impact of naturally-occurring missense variants in human melanopsin (hOPN4) was examined in vitro. Fluorescent calcium imaging of 16 hOPN4 variants expressed in HEK293 cells revealed four hOPN4 variants abolished or attenuated responses to light (Y146C, R168C, G208S and S308F). These variants were located in conserved opsin motifs for chromophore binding or hydrogen-bond networks, functional roles apparently shared by melanopsin. Finally, two hOPN4 single nucleotide polymorphisms (SNPs) P10L and T394I, associated with abnormal non-image forming behaviour in humans, were explored in vivo. Using targeted viral-delivery of hOPN4 SNPs to mouse ipRGCs, a range of OPN4-driven behaviours, such as circadian photoentrainment and pupil light responses, were found to be comparable with hOPN4 WT control. Multi-electrode array recordings of ipRGCs transduced with hOPN4 T394I virus had significantly attenuated sensitivity and faster response offset, indicating this site may be functionally important for melanopsin activity but compensatory rod and cone input limits changes to non-image forming behaviour.

Etude du récepteur humain de la mélatonine MT1 par des approches in vitro : mise au point des conditions de production, de purification et de caractérisation fonctionnelle / Study of human melatonine MT1 receptor by in vitro approaches : development of condition of production, purification and fonctional characterization

Logez, Christel

27 November 2013

Le récepteur humain de la mélatonine MT1 appartient à la famille des récepteurs couplés aux protéines G (RCPG). En raison du rôle majeur qu'il joue dans la régulation du rythme circadien, ce récepteur est impliqué dans les troubles du sommeil et la dépression et présente donc un intérêt thérapeutique important. Afin de progresser vers une meilleure caractérisation structurale et fonctionnelle de ce récepteur, nous avons élaboré une stratégie globale visant à générer les échantillons et méthodes nécessaires pour de telles études. Nous avons ainsi mis au point un ensemble original de conditions de production et de purification permettant d'isoler les récepteurs MT1 sous forme relativement pure, homogène et fonctionnelle. Parallèlement, à partir d'un RCPG de référence, le récepteur de l’adénosine A2A, nous avons mis au point un panel de techniques d’analyses biochimiques et biophysiques qui contribuent à une caractérisation fine des récepteurs purifiés et leur interaction avec des ligands. / The human MT1 melatonin receptor belongs to the family of G protein-coupled receptors (GPCRs). It plays a major role in the regulation of circadian rhythm and is involved in sleep disorders and depression. This receptor is thus of significant therapeutic interest. However, very few in vitro studies have been conducted on this receptor and in particular no structural characterization and interactio studies by biophysical methods. In order to progress on these aspects, we developed conditions of production and purification of MT1 receptors for obtaining samples compatible with this type of study. Furthermore, we initiated stabilization tests of the purified receptors. Meanwhile, we have developed biochemical and biophysical analysis techniques to characterize the purified receptors and study their interactions with ligands, on a reference GPCR, the A2A adenosine receptor.

Récepteurs couplés aux protéines G

Récepteur humain de la mélatonine MT1

Récepteur humain de l’adénosine A2A

Production

Purification

Études in vitro

G protein coupled receptor

Human melatonin MT1 receptor

Human adenosine A2A receptor

Production

Purification

In vitro studies

572.8

Avaliação fenotípica e de defeitos moleculares no GNAS em pacientes com pseudo-hipoparatireoidismo (PHP) e pseudopseudo-hipoparatireoidismo (PPHP) / Evaluation of the phenotype and molecular defect in GNAS in patients with pseudohypoparathyroidism (PHP) and pseudopseudohypoparathyroidism

Mariana Tenorio Antunes Reis

02 December 2014

INTRODUÇÃO: A primeira doença humana atribuída à resistência hormonal foi o pseudo-hipoparatireoidismo (PHP), uma doença rara caracterizada por hipocalcemia, hiperfosfatemia e níveis elevados de hormônio paratireoidiano (PTH) na presença de função renal normal, quadro condizente com resistência ao PTH. A classificação original do PHP leva em consideração a osteodistrofia hereditária de Albright (AHO): presente no PHP1a e ausente no PHP1b. Na medida em que as bases moleculares do PHP têm sido compreendidas, uma classificação baseada no genótipo tem surgido. Segundo ela, pacientes com PHP1a apresentam mutações na região codificadora da Gsalfa do GNAS e o padrão de herança é autossômico dominante relacionado à transmissão materna. Por outro lado, o PHP1b é caracterizado por alterações nas regiões diferencialmente metiladas (DMRs) do GNAS por mecanismos não completamente esclarecidos, limitando a previsão do seu padrão de herança. Pacientes que apresentam a AHO na ausência de resistência hormonal têm o diagnóstico de pseudopseudo-hipoparatireoidismo (PPHP) e seu padrão de herança é autossômico dominante relacionado à transmissão paterna de mutações na região codificadora da Gsalfa do GNAS. OBJETIVOS: Classificar 25 pacientes com PHP com base em defeitos no GNAS e caracterizar seu fenótipo. Pesquisar mutações no GNAS nos quatro pacientes com PPHP e também caracterizar seu fenótipo. MÉTODOS: A avaliação fenotípica incluiu análise das resistências hormonais, pesquisa de repercussões crônicas da hipocalcemia/hiperfosfatemia (calcificações em sistema nervoso central: SNC e catarata) e identificação da AHO. A análise do GNAS foi feita por sequenciamento automático e MLPA (região codificadora da Gsalfa) e por MS-MLPA (região regulatória: DMRs). RESULTADOS: Resistência ao PTH foi identificada nos 25 pacientes com PHP e resistência ao TSH em 17/25. Calcificações em SNC e catarata estiveram presentes em 18 e 10 pacientes com PHP, respectivamente. A AHO foi caracterizada por: face arredondada (n=18), braquidactilia (n=11), baixa estatura (n=8), ossificações subcutâneas (n=6), obesidade (n=9) e retardo mental (n=3). Identificamos oito mutações (cinco novas) na região codificadora da Gsalfa em 10 pacientes com PHP1a e quatro pacientes com PPHP. Quinze pacientes apresentaram alteração no padrão de metilação das DMRs (genótipo: PHP1b). O fenótipo dos pacientes foi semelhante nos dois grupos. DISCUSSÃO E CONCLUSÃO: Nenhuma das classificações do PHP foi capaz de predizer gravidade ou o curso clínico da doença. Porém, o diagnóstico do PHP1a baseado no genótipo possibilitou a identificação precoce de uma paciente, a exclusão de PHP1a na filha de outra paciente e o aconselhamento genético em duas famílias. O diagnóstico de PHP1b em uma paciente só foi possível graças ao genótipo, visto que seu perfil laboratorial osteometabólico era inconclusivo. Com base no fenótipo, 8/15 pacientes com PHP1b seriam classificados como PHP1a considerando a presença de dois ou mais estigmas da AHO, podendo levar a falhas no aconselhamento genético. Portanto, concluímos que a classificação do PHP baseada na análise do GNAS é mais informativa do que a baseada no fenótipo, permitindo o diagnóstico precoce e o aconselhamento genético de casos familiais de PHP1a. A identificação do PHP1b deve ser promissora na medida em que seus mecanismos de transmissão forem mais bem entendidos / BACKGROUND: The first human disease attributed to hormone resistance was pseudohypoparathyroidism (PHP), a rare disease characterized by hypocalcemia, hyperphosphatemia and elevated parathyroid hormone (PTH) levels in the presence of normal renal function, consistent picture of PTH resistance. The original classification of PHP takes into account the Albright hereditary osteodystrophy (AHO): present in PHP1a and absent in PHP1b. As the molecular bases of PHP have been understood, a classification based on genotype has emerged. According to it, PHP1a patients present mutations in the Gsalpha coding region of the GNAS and the pattern of inheritance is autosomal dominant related to maternal transmission. On the other hand, PHP1b is characterized by alterations in differentially methylated regions (DMRs) of the GNAS by mechanisms not completely clear, limiting the prediction of the pattern of inheritance. Patients who present AHO in the absence of hormone resistance have the diagnosis of pseudopseudohypoparathyroidism (PPHP) and their pattern of inheritance is autosomal dominant related to paternal transmission of mutations in the Gsalfa coding region of the GNAS. OBJECTIVE: To classify 25 patients with PHP based on GNAS molecular defects and to characterize their phenotype. To search for GNAS mutations in four patients with PPHP and also to characterize their phenotype. METHODS: The phenotypic evaluation included analysis of hormone resistances, research of chronic repercussions of hypocalcemia/hyperphosphatemia (calcifications in central nervous system: CNS and cataract) and identification of AHO. The analysis of the GNAS was done by automated sequencing and MLPA (Gsalphaa coding region) and by MS-MLPA (regulatory region: DMRs). RESULTS: PTH resistance was identified in 25 patients with PHP and TSH resistance in 17/25. Calcifications in CNS and cataract were present in 18 and 10 patients with PHP, respectively. AHO was characterized by: rounded face (n=18), brachydactyly (n=11), short stature (n=8), subcutaneous ossifications (n=6), obesity (n=9) and mental retardation (n=3). We identified eight mutations (five novels) in the Gsalpha coding region in 10 patients with PHP1a. Fifteen patients presented alterations in the methylation pattern of DMRs (genotype: PHP1b). The phenotype of patients was similar in both groups. DISCUSSION AND CONCLUSION: None of the PHP classifications was able to predict the severity or clinical course of the disease. However, the diagnosis of PHP1a based on genotype allowed the early identification of one patient, the exclusion of PHP1a in the daughter of another patient and genetic counseling in two families. The PHP1b diagnosis in one patient was only possible due to the genotype, as her bone metabolism profile was inconclusive. Based on phenotype, 8/15 PHP1b patients would have been classified as PHP1a considering the presence of two or more AHO stigmas, being able to lead to failures in genetic counseling. Therefore, we conclude that the PHP classification based on GNAS analysis is more informative than that based on phenotype, allowing the early diagnosis and the genetic counseling for familial cases of PHP1a. The identification of PHP1b may be promising as its transmission mechanisms are better clarified

Hiperfosfatemia

Hipocalcemia

Hormônio paratireóideo

Osteodistrofia hereditária de Albright

Proteína GNAS humana

Proteína-G estimuladora Gs

Pseudo-hipoparatireoidismo

Pseudopseudo-hipoparatireoidismo

Albright hereditary osteodystrophy

G-Protein/stimulatory Gs

GNAS protein/human

Hyperphosphatemia

Hypocalcemia

Parathyroid hormone

Pseudohypoparathyroidism

Pseudopseudohypoparathyroidism

Human δ opioid receptor:the effect of Phe27Cys polymorphism, N-linked glycosylation and SERCA2b interaction on receptor processing and trafficking

Markkanen, P. (Piia)

21 May 2012

Abstract The delta opioid receptor (δOR) is a member of the G protein-coupled receptor family. This transmembrane receptor has an important role in the regulation of pain. The OPRD1 gene that encodes the human δOR (hδOR) contains at least 11 single-nucleotide polymorphisms (SNPs). The only nonsynonymous SNP resides in the amino-terminal (N-terminal) domain of the receptor and it replaces Phe at position 27 with Cys, thus introducing an unpaired Cys residue on the extracellular surface of the receptor. The Cys27 variant has been shown to have an allelic frequency of about 10% in Caucasian populations. The polymorphic site is flanked by two putative N-glycosylation sites at Asn18 and Asn33. In this study, the folding, maturation and trafficking of hδOR was assessed using the hδORPhe27 and hδORCys27 variants and the N-glycosylation deficient forms of the latter as models in a heterologous expression system. The effects of N-glycosylation and the unpaired Cys-residue were studied with various biochemical, pharmacological and cell biological methods. In addition, protein-protein interactions of the intracellular hδOR precursors were assessed. The hδORCys27 and hδORPhe27 variants differed significantly in their subcellular localization and maturation efficiency. The newly synthesized hδORCys27 was found to accumulate in the endoplasmic reticulum (ER) prior to its ER-associated degradation in proteasomes. Although a slow maturation rate was characteristic for both variants, only the hδORCys27 had poor maturation efficiency. The cell surface expression of hδORCys27 was further decreased because the constitutive internalization of this receptor was enhanced compared to hδORPhe27. N-linked glycosylation was not required for hδOR function or ligand binding, but was important for the expression of the correctly folded receptor species at the cell surface. The mutant non-N-glycosylated receptor was shown to traffic to the cell surface with enhanced kinetics, but some of the plasma membrane receptors were in a nonnative conformation. Also, the overall levels of the non-N-glycosylated hδORCys27 were decreased as the receptor was efficiently internalized for lysosomal degradation in a constitutive fashion. The hδORCys27 and hδORPhe27 precursors were found to interact with several ER localized proteins, such as calnexin (CNX), protein disulfide isomerase (PDI) and ERp72. The receptors also associated with the sarco(endo)plasmic reticulum calcium ATPase 2b (SERCA2b), which was shown to occur during translocation of the receptor to the ER membrane or immediately thereafter. The interaction was not receptor N-glycan dependent and the normal functional activity of SERCA2b was shown to be required for proper cell surface expression of hδOR. / Tiivistelmä δ-opioidireseptori kuuluu G-proteiinikytkentäisiin reseptoreihin, ja sillä on tärkeä rooli kivun säätelyssä. Ihmisen δ-opioidireseptoria koodaavassa OPRD1 geenissä on havaittu ainakin 11 yhden nukleotidin polymorfiaa. Vain yksi tunnetuista polymorfioista aiheuttaa muutoksen proteiinin aminohapposekvenssiin. Se sijaitsee reseptorin aminoterminaalisessa osassa ja se muuttaa fenyylialaniinin (Phe) kohdassa 27 kysteiiniksi (Cys), joka on pariton. Cys27-variantin yleisyys eurooppalaisessa väestössä on noin 10 %. Polymorfisen kohdan molemmilla puolilla on N-glykosylaatiokohdat asparagiineissa Asn18 ja Asn33. Tämän työn tavoitteena oli tutkia δ-opioidireseptorin laskostumista, maturaatiota ja kuljetusta heterologisessa solumallissa käyttämällä Phe27- ja Cys27-variantteja sekä Cys27-variantin N-glykosyloimatonta mutanttia. Cys27-polymorfian ja N-glykosylaation vaikutuksia tutkittiin useilla biokemiallisilla, farmakologisilla sekä solubiologisilla menetelmillä. Lisäksi työssä tutkittiin solunsisäisen δ-opioidireseptorin esiasteen vuorovaikutusta muiden proteiinien kanssa. Phe27- ja Cys27-varianttien sijainti solun sisällä ja maturaatiotehokkuus eroavat toisistaan merkittävästi. Vastasyntetisoitu Cys27-variantti kerääntyy endoplasmakalvostoon, josta se ohjautuu proteasomihajoitukseen. Molemmat variantit kulkeutuvat solun pintaan hitaasti. Cys27-variantin prosessointi on huomattavasti tehottomampaa ja sen määrää solun pinnalla vähentää myös lisääntynyt ohjaaminen solunsisäiseen lysosomihajotukseen. N-glykosylaatiolla ei havaittu olevan vaikutusta reseptorin toimintaan tai ligandin sitomiseen, mutta sillä on tärkeä merkitys oikein laskostuneiden reseptorien kuljetukselle solun pinnalle, koska osa pintaan päässeistä N-glykosyloimattomista reseptoreista on muodossa, johon reseptorispesifinen ligandi ei sitoudu. Vaikka mutanttireseptori kulkeutuukin solun pintaan nopeammin, sen määrä solun pinnalla on alhaisempi, koska mutanttireseptori ohjataan huomattavan nopeasti solun pinnalta lysosomihajotukseen. Phe27- ja Cys27-varianttien havaittiin olevan myös vuorovaikutuksessa eräiden endosomaalisen kalvoston proteiinien kanssa, kuten kalneksiinin, proteiinidisulfidi-isomeraasin ja ERp72-proteiinin. Kumpikin reseptori havaittiin yhteisessä rakenteessa sarko(endo)plasmakalvoston kalsium-ATPaasi 2b -pumpun (SERCA2b) kanssa N-glykosylaatiosta riippumattomalla tavalla. Nämä proteiiniryhmät muodostuvat, kun reseptori liitetään synteesin aikana endoplasmakalvostoon tai heti sen jälkeen. Vuorovaikutus toiminnallisen SERCA2b:n kanssa havaittiin tärkeäksi toimintakykyisen δ-opioidireseptorin esiintymiselle solun pinnassa.

ER quality control

ER-associated degradation

G protein-coupled receptor

N-linked glycosylation

SERCA

biosynthesis

endoplasmic reticulum

internalization

molecular chaperone

opioid receptor

polymorphism

G-proteiinikytkentäinen reseptori

N-glykosylaatio

SERCA

endoplasmakalvosto

endoplasmakalvoston laadunvalvonta

internalisaatio

molekulaarinen kaperoni

opioidireseptori

polymorfia

Conception et synthèse de sondes fluorescentes et d'agonistes des récepteurs de la vasopressine et de l'ocytocine : application mécanistique et thérapeutique / Design, synthesis and pharmacological evaluation of fluorescent probes and non-peptide agonists for oxytocin and vasopressin receptors : therapeutic and mechanistic applications

Pflimlin, Elsa

31 October 2013

Les récepteurs couplés aux protéines G constituent la plus grande famille de protéines membranaires et interviennent dans de nombreux processus physiologiques. La compréhension de l’interaction ligand-récepteur d’un point de vue mécanistique mais également thérapeutique est cruciale. Appartenant à la famille des récepteurs couplés aux protéines G, les récepteurs de la vasopressine et de l’ocytocine ont été choisis comme modèle d’étude. Ces hormones jouent un rôle important dans la modulation de l’attachement et de l’affect chez les mammifères. Afin d’accélérer la découverte de ligands ocytocinergiques et d’explorer les mécanismes fondamentaux de leurs interactions, nous avons conçu les premiers ligands fluorescents non peptidiques des récepteurs de la vasopressine V1a et de l’ocytocine. Ces ligands ont été utilisés pour développer des tests de liaisons par TR-FRET et démontrer la dimérisation des récepteurs de la vasopressine V1a et V2 sur cellules. Des études autour de petites plates-formes dérivées d’aza-dicétopipérazine ont permis d’accéder à un nouvel antagoniste non peptidique du récepteur de l’ocytocine. L’optimisation de dérivés benzodiazépines ocytocinergiques par des études de relations structure-activité a permis d’identifier les meilleurs agonistes non peptidiques du récepteur de l’ocytocine à ce jour. Une étude in vivo chez la souris et chez le singe est amorcée pour apporter dans un futur, une solution thérapeutique aux problèmes d’interaction sociale en général et d’autisme en particulier. / G protein coupled receptors are the largest membrane protein family and play an important role in a large number ofphysiological processes. The comprehension of the ligand-receptor interaction from a mechanistic point of view but alsofor therapeutic use is crucial. Belonging to the G protein coupled receptors, the oxytocin and vasopressin receptors havebeen used as a model system. These two hormones play an important role in the modulation of attachment and affectin mammals. To accelerate the discovery of new ligands for oxytocin and vasopressin receptors and to explore thefundamental role of their interactions, we designed the first non-peptide fluorescent ligands for oxytocin and vasopressin V1a receptors. These ligands have been used to develop new binding tests based on TR-FRET technology and to prove the V1a and V2 receptor dimerisation. In parallel, we developed a new non-peptide oxytocin antagonist around an aza-diketopiperazine platform. . Optimization of benzodiazepine derivatives enables us to identify the best non peptideoxytocin agonists to date. In vivo studies in mice and monkeys are initiated to bring in the future a therapeuticsolution to social interaction problems in general and autism in particular

Récepteurs couplés aux protéines G

Ocytocine

Vasopressine

Ligands non peptidiques

Relations structure-activité

Ligands fluorescents

TR-FRET

Criblage à haut débit

G protein-coupled receptors

Oxytocin

Arginine-vasopressin

Non-peptide ligands

Structure-activity relationships

Fluorescent ligands

TR-FRET

High-throughput screening

572.6

615.19

Heterotopic ossification in skin:special focus on multiple miliary osteoma cutis and the role of bone morphogenetic proteins

Moilanen, R. (Riina)

07 January 2014

Abstract Heterotopic ossification is a pathological condition in which bone forms outside the skeletal system. It can also occur in skin, which is the case in some genetic disorders. In multiple miliary osteoma cutis (MMOC), tiny bone fragments develop in the dermis and nearby subcutaneous tissue of the face and upper chest region during middle age. The etiology of the disease is poorly understood. The origin of the osteoma-forming cells is not known and also unknown are the signaling factors that direct the skin cells towards an osteogenic lineage. The purpose of this study was to investigate MMOC and the pathogenesis of ectopic bone formation by combining patient study and cell biology methods. The results from an extensive review of the literature and five new cases revealed MMOC as a distinct disease entity, where heterotopic bone formation is intramembranous. No correlation was found between MMOC and acne scars, hormonal disturbances or GNAS gene mutations. In cell culture studies mouse and human dermal fibroblasts and mouse dermal papilla (DP) cells were found to differentiate into osteoblast-like matrix mineralizing cells. The bone morphogenetic protein 4 (BMP-4) homodimer and BMP-2/7 heterodimer had significant effects on the osteogenic differentiation of the above mentioned cells. Interestingly, the BMPs enhanced the differentiation of mouse cells but reduced it in human cells. In mouse DP cells and human fibroblasts BMP-2/7 was more potent than BMP-4. The skin area affected by osteomas in patients was compared to their unaffected skin and also to the corresponding skin areas in controls with regard to osteogenic differentiation and gene expression studies. MMOC patients’ skin differs from controls both in osteoma and unaffected skin areas, which suggests MMOC is not only a local but also a systemic skin disease. The results confirm the previous findings that gene expression in skin is different in different parts of the body, which could explain why the osteomas develop in certain skin areas. The results of this study provide new information about MMOC and heterotopic ossification in skin and could be useful when developing treatments for MMOC. This study also presents new information about BMPs and their different effects in mouse and human cells, which may stimulate discussion about the generalization of mouse studies in humans and the clinical use of BMPs. / Tiivistelmä Virhesijaintinen luutuminen on patologinen tila, jossa luuta muodostuu luisen tukirangan ulkopuolelle. Tätä voi tapahtua myös ihossa, kuten käy tietyissä sairauksissa. Ihon lukuisat jyvämäiset osteoomat on tauti, jossa pieniä luujyväsiä ilmaantuu verinahkaan ja ihonalaiskudokseen keski-iässä. Taudin syytä, osteoomia muodostavien solujen alkuperää tai sitä, mitkä viestinvälittäjät saavat esiastesolut siirtymään luusolulinjalle, ei tiedetä. Tässä työssä tutkittiin ihon lukuisia jyvämäisiä osteoomia ja virhesijaintista luutumista yhdistämällä kliinisiä ja solubiologisia menetelmiä. Laajasta kirjallisuuteen perehtymisestä ja viidestä omasta potilaasta saadut tulokset osoittivat ihon lukuisten jyvämäisten osteoomien olevan oma erillinen tautinsa, jossa virhesijaintinen luutuminen tapahtuu suoran luutumisen mekanismilla. Tauti ei näytä olevan yhteydessä aknearpiin, hormonihäiriöihin tai GNAS-geenin mutaatioihin. Soluviljelykokeissa hiiren ja ihmisen verinahan fibroblastien ja hiiren karvatupen nystyn solujen havaittiin erilaistuvan osteoblastityyppisiksi soluväliainetta mineralisoiviksi soluiksi. Luun morfogeneettisillä proteiineilla (BMP) 4 ja 2/7 oli merkitsevä vaikutus yllä mainittujen solujen erilaistumisessa. Yllättävää kyllä, ne edistivät hiiren solujen, mutta vähensivät ihmisen solujen erilaistumista. Hiiren karvatupen soluille ja ihmisen fibroblasteille BMP-2/7 oli tehokkaampi kuin BMP-4. Potilaiden osteoma-aluetta verrattiin heidän terveeseen ihoalueeseensa samoin kuin vastaaviin ihoalueisiin kontrollihenkilöillä käyttäen menetelminä solujen erilaistamista luuta muodostavaan suuntaan sekä geenien ilmentymisen tutkimista. Potilaiden iho erosi kontrollien ihosta sekä osteooma-alueella että terveellä ihoalueella, mikä viittaa taudin olevan koko elimistöön vaikuttava. Tulokset vahvistavat aikaisempia löydöksiä siitä, että geenien ilmentyminen ihossa on erilaista eri puolilla kehoa. Tämä voisi selittää osteoomien esiintymisen vain tietyllä alueella. Tämän tutkimuksen tulokset antavat uutta tietoa ihon lukuisista jyvämäisistä osteoomista ja virhesijaintisesta luutumisesta ja saattavat olla hyödyksi kehitettäessä taudin hoitoa. Tutkimus antaa uutta tietoa luun morfogeneettisten proteiinien erilaisesta käyttäytymisestä hiirellä ja ihmisellä, mikä herättänee keskustelua hiirikokeiden yleistämisestä ihmiseen ja luun morfogeneettisten proteiinien kliinisestä käytöstä.

G-protein α-stimulatory subunit

bone morphogenetic proteins

fibroblasts

heterotopic ossification

multiple miliary osteoma cutis

skin

G-proteiinin stimuloiva α-alayksikkö

fibroblastit

heterotooppinen luutuminen

iho

ihon lukuisat jyvämäiset osteoomat

luun morfogeneettiset proteiinit

Contrôle dynamique de la polarité chez Myxococcus xanthus : évolution et architecture d'un système chimiotactique modulaire / Dynamic control of cell polarity in Myxococcus xanthus : evolution and architecture of a modular chemosensory system

Guzzo, Mathilde

24 November 2015

La bactérie Myxococcus xanthus forme des structures multicellulaires appelées corps fructifères pour résister à des conditions de carence nutritive. La formation de ces structures implique un système chimiotactique particulier, le système Frz, qui régule le changement de direction des cellules, provoqué par la relocalisation simultanée des deux appareils de motilité (A) et (S) d’un pôle à l’autre de la cellule. Au cours de ma thèse, j’ai travaillé sur la connexion entre le système chimiotactique Frz et ses protéines cibles MglAB dans le contrôle de l’inversion de la polarité. L’axe de polarité des cellules est établi par MglA, une petite protéine G de la famille Ras, qui constitue un embranchement vers la régulation des deux appareils de motilité au pôle avant, et son inhibiteur MglB localisé au pôle arrière. Nous avons montré qu’en interagissant directement et spécifiquement avec le cytosquelette, MglA contrôle l’assemblage et le désassemblage de la machinerie de motilité A. Par une approche évolutive, nous avons élucidé l’architecture modulaire du système Frz et l’implication de quatre domaines régulateurs pour connecter le système Frz aux protéines MglAB, filtrer et amplifier le signal. Nous proposons un mécanisme d’inversion de la polarité dans lequel l’action indépendante de deux RRs à chaque pôle de la cellule perturbe les interactions entre une petite protéine G et son inhibiteur apparenté pour convertir un axe de polarité stable en un oscillateur biochimique. La régulation de la direction de mouvement chez M. xanthus pourrait donc constituer un cas émergent de couplage entre des régulateurs de type procaryotes et eucaryotes. / The bacterium Myxococcus xanthus forms multicellular structures called fruiting bodies to resist to starvation conditions. Fruiting body formation implies a chemosensory-like system, the Frz system which regulates directional changes through the simultaneous pole-to-pole relocalization of two motility systems, (A) and (S). During my PhD, I have worked on the connection between the Frz chemosensory-like system and the downstream regulators MglA and MglB in the control of polarity inversion. The cell polarity axis is established by (i) a Ras-like small G protein, MglA, which constitutes a branch node in the regulation of A and S motility systems at the leading cell pole, and (ii) its cognate inhibitor MglB that localizes at the lagging cell pole. We showed that MglA interacts directly and specifically with the cytoskeleton to promote assembly and disassembly of the A-motility machinery. Using an evolutionary approach, we elucidated the modular architecture of the Frz system and the implication of four regulatory domains to (i) connect the Frz system to the MglAB proteins, (ii) filter and (iii) amplify the signal. We now propose a mechanism for polarity inversion in which the independent action of two response regulators at each cell pole perturbs the interactions between a small-G-protein and its cognate inhibitor to trigger the conversion of a stable polarity axis into a biochemical oscillator. The regulation of directional movement in M. xanthus is an interesting emergent coupling between prokaryotes and eukaryotes regulators.

Bactérie

Myxococcus xanthus

Multicellularité

Régulation

Systèmes à deux composants

Motilité

Petite protéine G

Actine

Polarité

Bacteria

Myxococcus xanthus

Multicellularity

Regulation

Two-Component system

Motility

Small G protein

Actin

Polarity

579

Neuronal polarization shapes the targeting and signaling of G-protein coupled receptors (GPCRs) : type-1 cannabinoid receptors and 5-HT1B serotonin receptors show highly contrasted trafficking and signaling patterns in axons and dendrites / La polarisation neuronale façonne l’adressage et la signalisation des récepteurs couplés aux protéines G (RCPG) : le récepteur canabinoïque de type 1 et le récepteur sérotoninergique 5-HT1B ont un trafic et une signalisation différents dans les axones et les dendrites

Ladarré, Delphine

03 October 2014

L’architecture polarisée des neurones est mise en place est maintenue grâce à un adressage hautement contrôlé de protéines vers l’axone ou vers le compartiment somatodendritique. Parmi ces protéines, les récepteurs aux protéines G (RCPG) neuronaux sont des cibles pharmacologiques clés. Cependant, leur pharmacologie est généralement étudiée dans des lignées cellulaires non polarisées et les résultats obtenus dans ces systèmes ne caractérisent pas correctement les effets physiologiques de l’activation des RCPG présents dans le cerveau. Par conséquent, un des principaux sujets de recherche de notre équipe est de comprendre comment la polarité neuronale influe sur la pharmacologie des RCPG, en étudiant l’un des RCPG les plus abondants dans le cerveau : le récepteur cannabinoïque de type-1 (CB1R). Les études précédentes de notre groupe ont suggéré que CB1R acquiert une polarisation axonale grâce à un adressage transcytotique : après leur synthèse, ces récepteurs apparaissent sur la membrane plasmique somatodendritique d’où ils sont rapidement enlevés par endocytose constitutive puis adressés à la membrane plasmique axonale où ils s’accumulent du fait d’une endocytose réduite. Au début de ma thèse, nous avons directement mesuré cette endocytose différentielle et le transport transcytotique de CB1R en utilisant des neurones de rats mis en culture dans des dispositifs microfluidiques. De plus, nous avons montré que des traitements pharmacologiques prolongés peuvent fortement changer la distribution de RCPG à la surface neuronale. Ces résultats démontrent que l’équilibre endocytotique dépendant du compartiment neuronal, qui est contrôlable pharmacologiquement, est important pour la distribution des RCPG neuronaux. Dans une seconde partie, nous avons étudié si le trafic différentiel de CB1R entre axones et dendrites est corrélé avec une pharmacologie différentielle. CB1R est majoritairement couplé à des protéines de type Gi/o et est connu pour inhiber la production d’AMPc. Nous avons donc développé l’imagerie par Föster Resonance Energy Transfer (FRET) appliqué aux cultures de neurones d’hippocampe de rats afin de mesurer la modulation de la voie de signalisation AMPc/PKA en aval de CB1R endogènes dans l’ensemble des compartiments neuronaux : somata, dendrites, mais aussi dans les axones matures très fins. Nos résultats montrent que CB1R possède une pharmacologie différente entre les dendrites et les axones. Notamment, son activation conduit à une diminution plus forte de l’activité basale de la PKA dans les axones comparé aux dendrites, lié au plus grand nombre de récepteurs présents sur la membrane de ce compartiment. De plus, nous démontrons que, contrairement aux récepteurs axonaux, les CB1R somatodendritiques inhibent constitutivement la voie AMPc/PKA. Cette différence est due à la distribution polarisée de la DAGLipase, l’enzyme synthétisant l’endocannabinoïde principal, le 2-arachidonoyglycerol (2-AG). De plus, l’inhibition pharmacologique de la DAGL modifie l’efficacité de plusieurs agonistes de CB1R dans le compartiment somatodendritique mais pas dans l’axone. Cet effet pourrait être dû à une modulation allostérique. Dans une troisième partie, nous avons étudié si les résultats ci-dessus peuvent être généralisés à d’autres RCPG. Etant donné que l’adressage axonal et la pharmacologie in vitro des récepteurs sérotoninergiques 5-HT1B montrent de fortes similitudes avec ceux de CB1R, nous avons étudié la pharmacologie de ces récepteurs en utilisant la technique de FRET développée précédemment. De façon similaire, nous avons trouvé une pharmacologie différentielle entre l’axone et les dendrites. / Polarized neuronal architecture is achieved and maintained mainly through highly controlled targeting of proteins to axons versus to the somatodendritic compartment. Among these proteins, neuronal G protein coupled receptors (GPCRs) are key therapeutic targets. However, their pharmacology is generally studied in non-polarized cell lines, and results obtained in such systems likely do not fully characterize the physiological effects of brain GPCR activation. Therefore, a main research subject of our group is to understand how neuronal polarity influences GPCR pharmacology, by studying one of the most abundant GPCR in the brain: the type-1 cannabinoid receptor (CB1R). Previous studies of the group suggested that CB1Rs achieve axonal polarization through transcytotic targeting: after their synthesis, these receptors appear on the somatodendritic plasma membrane from where they are removed rapidly by constitutive endocytosis and then targeted to the axonal plasma membrane where they accumulate due to relatively reduced endocytosis rate. At the beginning of my PhD project we directly demonstrated this differential endocytosis and transcytotic transport of CB1Rs by using cultured neurons in microfluidic devices. Moreover, we showed that chronic pharmacological treatments may strongly change neuronal GPCR distribution on the neuronal surface. These results demonstrate that subdomain-dependent steady-state endocytosis, which is pharmacologically controllable, is important for GPCR distribution in neurons. In a second part, we asked if differential traffic of CB1Rs between axons and dendrites is correlated with differential pharmacology. CB1R is predominantly coupled to Gi/o proteins and is known to inhibit cAMP production. Thus, we developed live Föster Resonance Energy Transfer (FRET) imaging in cultured hippocampal neurons in order to measure basal cAMP/PKA pathway modulation downstream of endogenous CB1Rs in all neuronal compartments: in somata, in dendrites but also in the very thin mature axons. Our results show that CB1R displays differential pharmacology between axon and dendrites. Notably, its activation leads to a stronger decrease of PKA activity in axons compared to dendrites, due to increased number of membrane receptors in this compartment. Moreover, we demonstrate that somatodendritic CB1Rs constitutively inhibit cAMP/PKA pathway, while axonal receptors do not. This difference is due to polarized distribution of DAGLipase, the enzyme that synthesizes the major endocannabinoid 2-arachidonoylglycerol (2-AG). Moreover, blocking DAGL by pharmacological treatment modifies somatodendritic, but not axonal effects of several CB1R agonists, possibly through allosteric action. In a third part, we asked if the above results may be generalized to other GPCRs. Because the axonal targeting and in vitro pharmacology of 5-HT1B serotonin receptors demonstrate strong similarities with CB1Rs, we studied their neuronal pharmacology by using the previously developed FRET technique. We found similar differential responses to pharmacological treatments between axon and dendrites. In a fourth part, we investigated the role of the threonine 210 (T210) residue in the constitutive activity of neuronal CB1R. We showed that the hypoactive mutant T210A-CB1R do not constitutively recruit signaling pathways even in somatodendritic compartment, where 2-AG is present. This result demonstrates that T210 is necessary for constitutive CB1R activation by 2-AG.Finally, previous results of our group demonstrated the involvement of CB1R in neuronal development. Notably, CB1R activation was shown to have an overall inhibitory effect on the development of polarized neuronal morphology. We established a bibliographic review on this subject. The published literature data suggest that not only neuronal polarization influences both CB1R traffic and pharmacology but CB1Rs also contribute to the achievement of neuronal polarization. (...)

Récepteurs couplés aux protéines G

RCPG

Récepteur canabinoïque de type 1

CB1R

Polarisation neuronale

Dendrites

Axons

Trafic

Signalisation

G-protein coupled receptors

GPCR

Type-1 cannabinoid receptor

CB1R

Neuronal polarization

Dendrites

Axons

Trafficking

Signaling

612.8

Neuroendocrine Modulation of Complex Behavior and Physiology in C. elegans

Florman, Jeremy T.

30 September 2020

To survive, animals must adapt to a complex and challenging world in a way that is flexible and responsive, while maintaining internal homeostasis. Neuromodulators provide a means to systemically alter behavioral or physiological state based on intrinsic or extrinsic cues, however dysregulated neuroendocrine signaling has negative consequences for fitness and survival. Here I examine neuroendocrine function and dysfunction using the escape response in Caenorhabditis elegans. The RFamide neuropeptide FLP-18 is a co-transmitter with the monoamine tyramine and functions both synergistically and antagonistically to tyramine in coordinating escape behavior. Using behavioral analysis and calcium imaging, I show that FLP-18 functions primarily through the G-protein coupled receptor (GPCR) NPR-5 to increase calcium levels in muscle, enhancing locomotion rate, bending and reversal behavior during the escape response. Furthermore, I examine the relationship between persistent acute stress and resilience using repeated activation of the escape response as a model of neuroendocrine dysregulation. Repeated activation of the escape response shortens lifespan and renders animals more susceptible to thermal, oxidative, and nutritional stress. Tyramine release is necessary and sufficient for this effect and activity of the tyraminergic RIM neurons is differentially regulated by acute versus long-term stressors. Impaired stress resistance requires both the GPCR TYRA-3 in the intestine and intestinal neuropeptide release. Activation of the insulin receptor DAF-2 is downstream of TYRA-3 and inhibits the transcription factors DAF-16/FOXO, SKN-1/Nrf2 and HSF-1, linking monoamine signaling in acute stress to the insulin signaling pathway and impaired resilience to long-term stressors.

neuropeptides

neuromodulation

C. elegans

co-transmission

biogenic amines

fight or flight response

behavior

neuropeptide receptors

arousal

G-protein signaling

stress

insulin signaling

daf-16/FOXO

longevity

neural circuits

compound motor sequence

calcium

Behavioral Neurobiology

Endocrinology