Global ETD Search

291	Biologia reprodutiva de três espécies de serpentes da Família Viperiade da região neotropical / Barros, Verônica Alberto. January 2011 (has links) Orientador: Selma Maria Almeida-Santos / Banca: Otavio Augusto Vuolo Marques / Resumo: Dados sobre a biologia reprodutiva (e.g. ciclos reprodutivos, maturação e dimorfismo sexual, padrões de estocagem de esperma e padrões de atividade) de três espécies de serpentes da Família Viperidae da região neotropical, Crotalus durissus (N = 228), Bothrops leucurus (N = 320) e Bothrops erythromelas (N = 239), são apresentados neste estudo. Os machos atingem a maturidade sexual com comprimento rostro-cloacal (CRC) menor que as fêmeas em B. erythromelas e B. leucurus. Nas populações de C. durissus da região Nordeste do Brasil, machos e fêmeas atingem a maturidade sexual com comprimentos semelhantes, porém há relatos de padrões diferentes para outras populações. Não há diferença quanto ao CRC de machos e fêmeas sexualmente maduros de C. durissus e B. leucurus, espécies paras as quais há relato de combate entre os machos. Fêmeas de B. erythromelas são maiores que os machos, característica esperada para uma espécie em que não há a ocorrência de combate. Os ciclos reprodutivos de machos e fêmeas das três espécies, descritos com base em análises morfológicas e histológicas das gônadas e vias genitais, são sazonais e influenciados tanto pelas condições climáticas quanto pelas relações filogenéticas. O período de vitelogênese ocorre ao longo de grande parte do ano em B. leucurus e B. erythromelas e em um período mais restrito em C. durissus, durante o outono e a primavera. Relatos de acasalamento durante o outono estão disponíveis para as três espécies, embora para B. leucurus o acasalamento também possa ocorrer durante o inverno. Em B. leucurus e C. durissus, após a cópula, os espermatozóides permanecem estocados no trato reprodutivo da fêmea, no interior da contração muscular uterina, até o momento da ovulação e fertilização (final do inverno - início do verão). É provável que as fêmeas de B. erythromelas também... (Resumo completo, clicar acesso eletrônico abaixo) / Abstract: New data about reproductive biology (e.g. reproductive cycles, sexual maturation and dimorphism, sperm storage and activity patterns) of three species of Viperidae snakes from the Neotropical region, Crotalus durissus (N = 228), Bothrops leucurus (N = 320) and Bothrops erythromelas (N = 239), are presented. B. erythromelas and B. leucurus males attain sexual maturity at smaller sizes (snout-vent length - SVL) than conspecific females. C. durissus males and females from northeastern Brazil attain sexual maturity at similar sizes. However, other sexual maturity patterns have already been described for other populations. No significant difference was observed on SVL between mature males and females of C. durissus and B. leucurus. Male-male combat behavior has been previously described for these species. B. erythromelas females are larger than males and male-male combat has never been reported for this species. Reproductive cycles are described considering morphological and histological analysis of the gonads and genital ducts. Reproductive cycles of the three species considered herein are seasonal and influenced by climatic conditions and phylogenetic relationships. Secondary vitellogenic follicles may be found in every season in B. leucurus and B. erythromelas, and only during autumn and spring in C. durissus. Records of mating during the autumn are available for the three studied species, but it may also occur during winter in B. leucurus. After mating, spermatozoa are stored in the female reproductive tract by means of an uterine muscular twisting (UMT) until ovulation and fertilization occur (end of winter - beginning of summer) in C. durissus and B. leucurus. It is probable that it also occurs in B. erythromelas because mating and ovulation are not synchronous in this species either. However, we did not find evidences for the occurrence of the UMT to confirm... (Complete abstract click electronic access below) / Mestre Ecologia animal. Espermatogênese em animais. Reprodução animal. Cobra - Reprodução. Reproductive cycles. eng Spermatogenesis. eng Sexual dimorphism. eng
292	Exploration génétique et moléculaire de défauts post-méiotiques sévères de la spermatogenèse entrainant une infertilité masculine / Genetic and molecular exploration of severe post-meiotic defects of spermatogenesis leading to male infertility Kherraf, Zine-Eddine 12 July 2018 (has links) L’infertilité est considérée actuellement par l’organisation mondiale de la santé (OMS) comme une préoccupation majeure de santé affectant plus de 50 millions de couples dans le monde. Dans les pays occidentaux, la majorité des couples infertiles ont recours aux techniques d’assistance médicale à la procréation (AMP) pour obtenir une grossesse. Malgré le succès de ces techniques, près de la moitié des couples qui ont recours à l’AMP sortent du parcours de soin sans enfant. Une partie de ces échecs est expliquée par l’altération de la gamétogenèse. Chez l’homme, la spermatogenèse fait interagir des centaines de gènes spécifiquement exprimés dans le testicule. L’abondance de ces gènes suggère que les troubles de la spermatogenèse présentent une forte composante génétique. Récemment, les avancées techniques ont favorisé l’identification de gènes responsables de ces anomalies mais la grande majorité des cas d’infertilité masculine reste classée comme idiopathique. L’objectif de la thèse est d’identifier de nouvelles causes génétiques responsables d’infertilité masculine et d’élucider les mécanismes physiopathologiques associés à ces anomalies.Au cours de ma thèse j’ai participé avec l’équipe GETI (génétique, épigénétique et thérapies de l’infertilité) à l’exploration génétique et moléculaire de deux phénotypes distincts d’anomalies spermatiques liés à des défauts post-méiotiques de la spermatogenèse : une forme rare d’azoospermie non obstructive (ANO) et le phénotype d’anomalies morphologiques multiples du flagelle spermatique (AMMF). Enfin j’ai joué un rôle important dans la création et l’analyse de modèles murins pour caractériser la pathogénie de ces anomalies.L’analyse génétique de deux frères infertiles nés de parents consanguins et présentant une ANO idiopathique associée à un arrêt post-méiotique de la spermatogenèse nous a permis d’identifier un variant homozygote délétère dans le gène SPINK2 qui code pour un inhibiteur de sérine-protéases. L’étude des souris KO pour ce gène nous a permis d’observer que les souris mâles adultes sont infertiles et miment parfaitement les phénotypes spermatique et testiculaire observés chez nos patients. Nous avons montré que la protéine codée par ce gène est exprimée dans l’acrosome à partir du stade de spermatide ronde. En l’absence de Spink2, l’activité protéolytique non-neutralisée des protéases cibles qui transitent par le Golgi cause sa fragmentation et bloque la spermiogénèse au stade de spermatide ronde. Nous avons également pu observer que les spermatozoïdes provenant de patients et de souris hétérozygotes présentent un taux élevé d’anomalies morphologiques et une baisse de la mobilité progressive conduisant à une hypofertilité à expressivité variable. Ces résultats montrent pour la première fois que l’oligo-tératozoospermie et l’azoospermie peuvent constituer un continuum pathologique dû à une même pathogénie.Nous avons également réalisé le séquençage exomique complet d’une cohorte de 78 individus AMMF non apparentés et avons identifié chez 49 sujets des mutations bi-alléliques délétères dans 11 gènes candidats dont DNAH1, CFAP43, CFAP44, WDR66 et FSIP2, soit un rendement diagnostique de 63%. Ces résultats confirment l’hétérogénéité génétique du phénotype MMAF et l’efficacité diagnostique du séquençage haut débit dans son exploration. Nous avons également validé l’implication de certains gènes candidats (n=4) dans ce phénotype chez le modèle murin knock-out créé par la nouvelle technologie d’édition du génome, CRISPR/Cas9.Dans son ensemble, ce travail montre l’intérêt et l’efficacité de la combinaison du séquençage exomique et de la technique de CRISPR/Cas9 pour étudier les troubles de la spermatogenèse et l’infertilité masculine. / Infertility is currently considered by the World Health Organization (WHO) as a major health concern affecting more than 50 million couples worldwide. In western countries, the majority of infertile couples seek assisted reproductive technologies (ART) to achieve a pregnancy. Despite the success of these techniques, almost half of these couples fail to obtain a child. Part of these failures are explained by the alteration of gametogenesis. In humans, spermatogenesis involves hundreds of genes specifically expressed in the testis. The abundance of these genes suggests that spermatogenic defects are associated with a strong genetic component. Recently, technical advances have led to the identification of numerous causative genes, but the vast majority of male infertility cases remain idiopathic. The aim of the present thesis is to identify new genetic causes responsible for male infertility and to elucidate the physiopathological mechanisms associated with these anomalies.During my thesis, I participated with the team GETI (genetics, epigenetics and therapies of infertility) in the genetic exploration of two phenotypes of male infertility related to post-meiotic defects of spermatogenesis: a rare form of non-obstructive azoospermia and the phenotype of multiple morphological abnormalities of the sperm flagella (MMAF). I have also played a key role in creation and analysis of transgenic mice to better characterize the pathogeny of the identified genetic causes in Human.Genetic analyses performed on two infertile brothers born form consanguineous parents and presenting an-idiopathic non-obstructive azoospermia associated with a post-meiotic arrest of spermatogenesis allowed us to identify a homozygous variant in the SPINK2 gene that encodes a serine-protease inhibitor. Phenotypic analysis of Spink2-/- adult male mice showed that they are infertile and perfectly mimic the sperm and testicular phenotypes observed in our patients. We showed that Spink2 protein is expressed from the round spermatid stage and localized in the acrosome, a lysosomal-like vesicle rich in proteases that play a key role during fertilization. When Spink2 is absent, the deregulated proteolytic activity of the targeted proteases such as acrosin leads to the fragmentation of the Golgi apparatus and arrest of spermiogenesis at the round spermatid stage. We also showed that sperm from heterozygous human and mice present a high level of morphological abnormalities and a decrease of progressive motility leading to a variable subfertility. These results showed for the first time that oligo-teratozoospermia and azoospermia could present a pathological continuum due to the same pathogeny.We also performed exome sequencing in a cohort of 78 non related MMAF subjects and identified in 49 cases deleterious bi-allelic mutations in a total of 11 candidate genes including DNAH1, CFAP43, CFAP44, WDR66 and FSIP2 giving a genetic diagnosis yield of 63%. These results confirm the genetic heterogeneity of MMAF and the efficiency of high throughput sequencing in genetic exploration of this phenotype. We also demonstrated the pathogenic implication of certain candidate genes (n=4) using knock-out mice created by the new technology of genome editing, CRISPR/Cas9.Overall, this work demonstrates the interest and effectiveness of combining exome sequencing and CRISPR/Cas9 system to study spermatogenesis disorders and male infertility. Infertilité Flagelle spermatique Séquençage exomique CRISPR/Cas9 Infertility Spermatogenesis Azoospermia Sperm flagellum Exome sequencing CRISPR/Cas9 610
293	Molecular Analysis Of Hamster Sperm Capacitation: Significance Of Protein Tyrosine Phosphorylation Naveen, Daniel M 06 1900 (has links) Fertilization is a process that generates the first cell of a new organism. In mammals, fertilization occurs in the female reproductive tract. The male gametes (spermatozoa) are rendered fertilization-competent only after they undergo capacitation and acrosome reaction (AR). The set of physiological changes, characterised by the acquisition of hyperactivated motility, that render the spermatozoa fertilization competent is known as capacitation. Using in vitro models, the complex intracellular signaling events mediating this process are still being understood. This thesis explores the role of protein tyrosine phosphorylation during capacitation using the golden hamster (Mesocricetus auratus) spermatozoa. The knowledge about the molecular components involved in capacitation, apart from enriching our understanding about a basic cellular process could also provide leads in the management of male (in)fertility. A comprehensive review on the perspectives of male reproduction, spermatogenesis, the structural features of a spermatozoon and sperm maturation, relevant to the content of the thesis is provided in Chapter-1 (General Introduction). Molecular mediators that initiate capacitation include cAMP, Ca2+and HCO3- ions. These signalling molecules regulate activities of protein kinases and phosphatases, which control the level of protein phosphorylation in spermatozoa. Capacitation-associated increase in protein phosphorylation, specifically protein tyrosine phosphorylation (PYP) has been demonstrated in a few species such as mouse, rat and human. The unique nature of PYP signaling during sperm capacitation has been exemplified by discoveries of several male germ cell-specific signalling molecules like soluble adenylate cyclase. However,molecular identities of tyrosine-phosphorylated proteins and their functional role during sperm capacitation are yet to be investigated in detail. In this context, the effect of modulating intracellular levels of signaling molecules upstream of protein phosphorylation was sought using pentoxifylline (PF), a cAMP phosphodiesterase inhibitor. Interestingly, PF-induced capacitation was associated with an early induction of tyrosine phosphorylation of proteins (45-80 kDa) localized to the mid piece of the sperm tail. Interestingly, the ultrastructural localization of tyrosine-phosphorylated proteins in the sperm tail by immunoelectron microscopy (IEM) revealed most intense immunolabelling in the fibrous sheath, followed by outer dense fibers (ODFs)and the axoneme. Data pertaining to the effect of PF on sperm capacitation and the associated protein-phosphorylation is presented in Chapter-2. Since PYP was determined to be extremely critical for hyperactivation in spermatozoa, the involvement of protein tyrosine kinases (PTKs) in this process was assessed using a specific PTK inhibitor, tyrphostin A47 (TP-47: EGFR-TK specific). The third chapter deals with the effect of tyrphostins on sperm capacitation and PYP. A dose-dependent inhibition by TP-47 of capacitation and principal piece associated-PYP of ~45-60 kDa proteins was observed. Interestingly, TP-47 treated-spermatozoa exhibited a circular motility pattern; when assessed for kinematic parameters, by computer aided sperm analysis, sperm showed lower values for key kinematic parameters as compared to the controls. While sperm viability in TP-47- treated samples was not affected, the ATP content reduced towards latter (4-5 h) part of culture as compared to the controls. When spermatozoa were treated with two other PTK inhibitors, tyrphostin AG1478 (EGFR-TK specific) and tyrphostin AG1296 (PDGFR-TK specific), they did not show any changes in kinematic parameters or PYP, indicating that the TP-47-effect was compound-specific. The fourth chapter of this thesis involves the molecular analysis of proteins hypo-tyrosine phosphorylated in the presence of TP-47, which started with the enrichment of sperm flagellar proteins that are tyrosine phosphorylated during capacitation, using various detergents. Detergent extractions established that most tyrosine-phosphorylated proteins were non-membranous in nature, which complemented the IEM data. Therefore, phosphoproteome analysis of the untreated and TP-47-treated sperm samples was performed. For this, protein extracts were subjected to 2D-PAGE-phosphotyrosine immunoblots. A 51 kDa spot and two 45 kDa spots, corresponding to the hypo-tyrosine phosphorylated spots, were analyzed by MS/MS. While peptides from the 51 kDa protein matched with tektin-2 (a microtubular protein), those of the 45 kDa spots matched with ODF-2 protein of the sperm flagellum. Validation of the presence of tektin-2 and ODF-2 protein and their tyrosine-phosphorylated forms on sperm capacitation in the hamster spermatozoa has also been performed. In addition to detailing the role of PYP in hamster sperm capacitation, this study revealed the identities of a few of these proteins, whose tyrosine phosphorylated status could be critical for optimal sperm flagellar bending, required for sperm hyperactivation. By understanding causes that lead to altered sperm function, for example, as observed with hamster spermatozoa, new insights could be achieved into molecular regulatory mechanisms that govern sperm function in clinical cases of non-obstructive male infertility in the human. Hamsters - Sexual Adaptation Hamster - Sperms Hamster Spermatozoa Spermatogenesis Protein - Phosphorylation Tyrphostin-A47 Hamster Sperm Capacitation Tyrosine Phosphorylation Animal Physiology
294	From stem cells to male germ cells: Experimental approaches for the in vitro generation of mouse and human spermatogonial stem cells Mellies, Nadine 29 May 2015 (has links) No description available. 570 in vitro spermatogenesis spermatogonial stem cells embryonic stem cells induced pluripotent stem cells co-culture Biologie (PPN619462639)
295	On the expression and deficiency of 5,10-methylenetetrahydrofolate reductase in murine sperm development Cushnie, Duncan Wells. January 2008 (has links) Development of specific DNA methylation patterns is required for normal spermatogenesis. DNA methyltransferases (DNMTs) use S-adenosylmethionine (SAM) produced in a pathway requiring 5,10-methylenetetrahydrofolate reductase (MTHFR). This thesis describes: testicular phenotype differences derived from Mthfr-deficiency in different mouse strains; the cellular Mthfr expression pattern during male germ cell development; and finally, changes to the DNA methylation of Mthfr-deficient sperm. Mthfr-deficient BALB/c, but not C57BL/6, mice have reduced neonatal germ cell proliferation but both have abnormal germ cells as adults. Germ cell MTHFR expression differed developmentally in parallel with DNMTs associated with de novo methylation. Sperm from mice with reduced Mthfr levels or dietary folate deficiency had differential DNA methylation at multiple loci, compared to wildtype mice, indicating that maintenance as well as acquisition of methylation can be altered by SAM-reduction. These results highlight the important role of folate in sperm development throughout life. Spermatogenesis -- genetics. Mice. Mice, Inbred BALB C. Mice, Inbred C57BL.
296	Estructura i ultraestructura testicular del mascle reproductor porcí (Sus domesticus) Garcia Gil, Núria 18 December 2002 (has links) El present treball analitza al microscopi òptic i al microscopi electrònic de transmissió el testicle de Sus domesticus (raça Landrace - varietat anglesa) a partir de mascles reproductors porcins adults i sans. L'objectiu principal de tots els centres d'Inseminació Artificial Porcina i de les Explotacions de Selecció i Multiplicació Porcina és garantir una excel·lent qualitat espermàtica al llarg de la vida reproductiva útil d'un mascle reproductor porcí. Així doncs, un millor coneixement dels patrons estructural i ultraestructural normals del testicle permetrà diagnosticar amb facilitat quina ha estat l'estructura o funció testicular afectada quan s'observa una disminució de la qualitat del semen. Les anàlisis seminals i hormonals són certament crucials en la valoració d'aquests mascles, però, no són totalment informatives de les alteracions testiculars, ja que és necessari conèixer l'organització microscòpica.Diversos estudis sobre testicle han demostrat que els marcadors més sensibles per a l'avaluació de la funció testicular són els següents: (1) la grandària testicular, (2) el gruix i l'organització de la càpsula testicular, (3) el percentatge de túbuls seminífers i de teixit intersticial en el parènquima testicular, (4) el diàmetre dels túbuls seminífers, (5) l'alçada i la composició de cèl·lules germinals de l'epiteli seminífer, (6) el gruix i l'organització de la làmina pròpia i, (7) la morfologia i la grandària de les cèl·lules de Leydig. El primer objectiu concret del present estudi ha estat, per tant, caracteritzar tots aquests paràmetres testiculars en mascles porcins sans i adults. L'organització estructural del testicle i les mesures quantitatives utilitzades com a marcadors no mostren diferències significatives ni entres els mascles porcins (P > 0,01), ni entre el testicle dret i l'esquerre (P > 0,01). Els testicles, de 330,80  16,99 g de pes, estan envoltats per una càpsula, de 2.375,13  246,68 m de gruix, la qual es divideix en tres capes: la túnica vaginalis constitueix l'1,82  0,78 % de la càpsula i està composta per una capa mesotelial externa i una capa interna de teixit conjuntiu dens; la túnica albuginea representa el 37,31  3,27 % i és de teixit conjuntiu dens i, la túnica vasculosa constitueix el 64,24 4,40 % i és de teixit conjuntiu lax. En el parènquima testicular els túbuls seminífers i el teixit intersticial representen el 72,44  2,12 % i el 27,46  2,12 %, respectivament. Els túbuls seminífers, de 226,23  18,08 m de diàmetre, es troben fortament recargolats i empaquetats, i estan compostos per la làmina pròpia i l'epiteli seminífer. La làmina pròpia, de 4-4,5 m de gruix, està formada per la làmina basal i dues capes de cèl·lules peritubulars. L'epiteli seminífer, amb una alçada mitjana de 66,11  10,62 m, és columnar i estratificat amb cèl·lules de Sertoli i diferents generacions d'espermatogònies, espermatòcits i espermàtides. El teixit intersticial és un teixit conjuntiu lax amb abundants cèl·lules de Leydig polièdriques fortament empaquetades (ca. 15 x 12 m).El segon objectiu concret d'aquest estudi ha estat estudiar des del punt de vista morfològic i morfomètric (alçada, longitud, freqüència relativa d'aparició i durada) els estadis del cicle de l'epiteli seminífer en els mascles porcins de la raça Landrace (varietat anglesa), classificats d'acord amb el mètode de la morfologia tubular. Els estadis premeiòtics ( I, II i III) ocupen el 31,9 % del cicle espermatogènic i es caracteritzen, principalment, per la presència de cèl·lules en les fase inicials de la meiosi I. Les primeres etapes de la meiosi I no afecten els paràmetres morfomètrics de l'epiteli seminífer ja que els valors obtinguts per l'alçada de l'epiteli seminífer, la freqüència relativa, la longitud i la durada d'aquests estadis són molt variables. Els estadis meiòtics (IV i V) representen el 16,4 % del cicle espermatogènic i estan constituïts, principlament, per cèl·lules en un estat avançat de la meiosi I i /o cèl·lules en meiosi II. Les últimes fases de la meiosi I i també de la meiosi II tenen lloc ràpidament, la qual cosa resulta en una baixa freqüència relativa d'aparició i, per tant, en una baixa durada dels estadis meiòtics. Els estadis postmeiòtics (VI, VII i VIII) ocupen el 50,6 % del cicle espermatogènic. L'esdeveniment més important que té lloc en aquests estadis és la fase de maduració de l'espermiogènesi. En la fase de maduració, les espermàtides experimenten diverses modificacions morfològiques i estructurals que donen lloc, finalment, als espermatozoides. La complexitat d'aquests processos fa que els estadis postmeiòtics presentin valors més grans de freqüència relativa, longitud i durada.El tercer objectiu concret d'aquest treball ha estat descriure a nivell ultraestructural el procés d'espermiogènesi, i relacionar les transformacions que experimenten les espermàtides en fase d'elongació amb els canvis ultraestructurals que tenen lloc en les diferents cèl·lules que constitueixen el testicle (cèl·lules germinals, de Sertoli i de Leydig, principalment). L'espermiogènesi del mascle porcí de la raça Landrace (varietat anglesa) s'ha dividit en 9 passos que vénen definits per 9 tipus diferents d'espermàtides. Al llarg de l'espermiogènesi no s'observen diferències ultraestructurals significatives (P > 0,01) ni entre els mascles porcins ni entre el testicle esquerre i dret en les cèl·lules que constitueixen el testicle. / The present study describes the structure and ultrastructure of the Sus domesticus testis (Landrace breed -british variety) from healthy adults boars. The main goal of the whole of Porcine Artifitial Insemination Centres and of the Porcine Livestocks is to guarantee an excellent spermatic quality along the boar reproductive life. Therefore, a better knowlegment of the normal structural and ultrastructural patterns of the testis will improve the prognosis of subfertility when a low spermatic quality is observed. Both seminal and hormonal analysis are certainly crucial in the assessment of these males, but it is also necessary to know the microscopic organization.Several studies have demonstrated that the most sensitive markers of impaired function are: (1) the testicular size, (2) the thickness and organization of the testicular capsule, (3) the percentage of seminiferous tubules and interstitial tissue in the testicular parenchyma, (4) the diameter of seminiferous tubules, (5) the height and germ cell composition of the seminiferous epithelium, (6) the thickness and organization of the lamina propria, and (7) the Leydig cell size and morphology. The first aim of this study has been to characterize all these testicular parameters in healthy adults boars. The structural organization of the testis and quantitative measures used as markers did not differ significantly either among boars (P > 0.01), or between left and right testes (P > 0.01). Testes, of 330.80  16.99 g weight, were surrounded by a capsule, of 2,375.13  246.68 m thick, divided into three layers: the tunica vaginalis constituted 1.82  0.78% of the capsule and was composed by an outer mesothelial layer and an inner dense connective tissue layer; the tunica albuginea represented 37.31  3.27% and was of dense connective tissue and the tunica vasculosa constituted 64.26  4.40% and was of loose connective tissue. In the testicular parenchyma, the seminiferous tubules and the interstitial tissue comprised 72.44  2.12% and 27.46  2.12%, respectively. Seminiferous tubules were highly convoluted ducts of 226.23  18.08 m in diameter composed by a lamina propria and the seminiferous epithelium. The lamina propria, of 4-4.5 m thick, was formed by basal lamina and two layers of peritubular cells. The seminiferous epithelium, of 66.11  10.62 m high, was stratified columnar with Sertoli cells and different generations of spermatogonia, spermatocytes and spermatids. The interstitial tissue was loose connective tissue with abundant and closely-packed polyhedral Leydig cells (av. 15 x 12 m).The second aim of this study has been to describe the morphological features of the eight stages of the seminiferous epithelium in Landrace boars (british variety) according to the tubular morphology method, as well as their relative frequency, length, height and duration. Premeiotic stages (I, II and III) occupied the 31.9 % of the spermatogenic cycle and were mainly characterized by the presence of cells in the initial phases of meiosis I. Early meiosis I did not affect the morphometric parameters of the seminiferous epithelium as indicated by the variable values obtained in the seminiferous epithelium height, as well as in the relative frequency, length, and duration of premeiotic stages. Meiotic stages (IV and V) represented the 16.4 % of the spermatogenic cycle and were constituted, mainly, by cells in advanced meiosis I and/or cells in meiosis II. Last phases of meiosis I and also meiosis II occurred rapidly, resulting in low relative frequency and, therefore, in low duration of meiotic stages. Postmeiotic stages (VI, VII and VIII) occupied the 50.6 % of the spermatogenic cycle. The most important event of these stages was the maturation phase of spermiogenesis. The maturation phase included several morphological and ultrastructural modifications in spermatids, resulting in the formation of spermatozoa. The complexity of these processes correlated with the high relative frequency, length, and duration of postmeiotic stages.The third aim of this study has been to describe the spermiogenesis process at ultrastructural level and, to relate the spermatid transformations along the spermiogernesis with the ultraestructural changes undergoing in testicular cells (mainly germinal, Sertoli and Leydig cells).The spermiogenesis of Landrace boars (british variety) was divided into 9 steps, each one characterized by the presence of an specific spermatid type. Significant differences were found neither among the three healthy boars (P > 0.01), nor the left and right testes (P > 0.01) in the ultrastructure of the testiculars cells along spermiogenesis. Spermatogenesis Espermatogènesi Macho reproductor porcino Spermiogenesis Morphology Sus domesticus Morfologia Morphometry Mascle reproductor porcí Espermiogenesi Pig-male reproduction 57 636
297	Spermatogenomics : Correlating Testicular Gene Expression to Human Male Infertility Baksi, Arka January 2017 (has links) (PDF) Spermatogenesis is a complex and coordinated process of formation of sperms from the precursor spermatogonia, occurring inside the unique environment existing in the seminiferous epithelium. This process of development, characterized by concomitant changes in the cellular morphology, metabolism and differential gene expression, can be divided into 3 distinct phases: i) proliferation of the spermatogonia through mitosis; ii) meiosis or reduction division, which commences with transformation of the type B spermatogonia into primary spermatocytes and their subsequent entry into the meiotic prophase I. These primary spermatocytes, divide to form secondary spermatocytes, and then divide again to form haploid round spermatids; (iii) spermiogenesis or differentiation and maturation of the round spermatids without further division to form the unique spermatozoa (Kerr and De Kretser, 2006, Clermont, 1966, Heller and Clermont, 1964). This complex process of division and differentiation is regulated at three distinct levels: i) The extrinsic level where the gonadotropins and testosterone regulate gene expression in the germ cells sustaining their survival and differentiation (French, 2012); ii) The interactive regulation that involves interactions between the somatic cells such as the Sertoli cells and the germ cells; iii) The intrinsic gene expression associated with each step of development of the germ cells (Eddy, 2002) wherein each stage of differentiation is accompanied by precise stage-specific differential gene expression. (Kleene, 1996, Kierszenbaum et al., 2003, Sassone-Corsi, 2002, Kleene, 2001, Sassone-Corsi, 1997). Any alterations in this gene expression pattern leads to disruption and/or arrest of spermatogenesis at various stages, causing male infertility (Zorrilla and Yatsenko, 2013, Krausz et al., 2015). Many studies have been focused on investigating the underlying molecular mechanisms governing the process of germ cell development such as self-renewal, meiotic recombination and differentiation (Hecht, 1998, Grootegoed et al., 2000, Robles et al., 2017). Analysis of differential gene expression in isolated and purified populations of different germ cells have been very useful in the understanding of the genetic regulation of human spermatogenesis by providing information about the cell type-specific gene expression and regulation. (Meistrich et al., 1973, Bellvé, 1993, Meistrich et al., 1981, Chalmel et al., 2007). However, these methods are limited by the large amounts of tissue required, which is difficult to obtain in the case of humans (Schultz et al., 2003). Large-scale gene expression studies and the “omics revolution” have also helped in identifying some of the regulators of spermatogenesis (Carrell et al., 2016). In spite of advances in the current understanding of the regulation of spermatogenesis, the exact molecular mechanisms of how the genetic and epigenetic alterations affect human spermatogenesis are still unclear (Neto et al., 2016). The present study is an attempt to investigate the human testicular gene expression pattern in the germ cells of patients with various types of azoospermia, and correlate the same to infertility. Comparative analysis of the testicular transcriptomes of infertile individuals (with arrested spermatogenesis) with the control, fertile individuals (with normal spermatogenesis) would allow identification of the cell type-specific altered genes. Analysis of these genes would provide an insight into the genetic regulation of the progress of spermatogenesis as well as allow identification of the crucial genes responsible for the arrest. The first step in this study was to ascertain the exact status of spermatogenesis in patients’ testes. Forty-four azoospermic patients were classified clinically into two major groups – obstructive (OA) and non-obstructive (NOA) azoospermia and further classified using flow cytometric analysis of the germ cells. The patients with OA exhibited presence of the diploid, tetraploid and haploid cells indicating complete spermatogenesis (Group I: DTH). The patients with NOA showed incomplete spermatogenesis with arrest at either the meiotic stage showing the presence of diploid and tetraploid cells, but not the haploid cells (Group II: DT), or at the pre-meiotic stage with only diploid cells (Group III: D). This was further verified by RT-PCR analyses for specific markers for different testicular cells. The Group I patients showed expression of markers specific for the Leydig cell (LHCGR, HSD3B2 and HSD17B3), the Sertoli cell (FSHR, KITL), spermatogonia (KIT), tetraploid cells (CCNA1, LDHC) and haploid cells (PRM1). The Group II patients showed expression of CCNA1 and LDHC, but not of PRM1. The Group III patients did not express any of the haploid or tetraploid specific markers. The germ cell pattern was further confirmed by histology where a clear difference was seen across the groups in accordance with their flow cytometric profiles. Subsequent to grouping of the patient samples based on their testicular germ-cell pattern, microarray analysis was carried out with representative samples from each group leading to identification of diploid-/tetraploid-/haploid-specific (D/T/H) genes. The enrichment, probable pathways and network interactions of these identified genes were analyzed and found to be in agreement with the classification made in this study. Further, based on their network interactions, the genes that were under multiple modes of regulation and the transcription factors that regulated multiple pathways were selected for further analysis. In absence of an in-vitro system to study germ cell differentiation, the importance of the selected genes in the progression of human spermatogenesis was analyzed from the data extrapolated from information available in the literature about expression of each gene in the human testes (wherever available), known function of the genes in various somatic cells, function in developing and adult testes of model organisms and the data from the knockout or transgenic animals where disruption of the gene/s resulted in an arrest or disruption of spermatogenesis. Expression of all the putative crucial genes was analyzed in all the patients including the control patients at the transcript level and three selected genes (one from each group- D, T and H) were further validated at the protein level using immunohistochemistry. All the genes showed a similar pattern of amplification in the different groups of patients to the pattern observed from the microarray. The diploid-specific genes (selected based on the available literature) were mainly the inhibitors or regulators of the cell cycle (CDKN1A, GADD45A, FOXM1) (Xiong et al., 1991, Jin et al., 2002, Laoukili et al., 2005) and regulators of cellular proliferation (KLFs, FOS, SRF, ATFs, SMADs) (Garrett-Sinha et al., 1996, Persengiev and Green, 2003, Angel and Karin, 1991, Ten Dijke et al., 2002). Six diploid-specific genes that were potential regulators of spermatogenesis were identified to be probable causes for the arrest of spermatogenesis at the pre-meiotic stage. CDKN1A showed elevated expression at the transcript level which suggested that DNA-damage induced proliferation check (mediated through CDKN1A) in the diploid cells probably prevented these cells from entering meiosis. This was further verified at the protein level by immuno-staining for CDKN1A. Further, GADD45A, KLF4, FOS, MCL1 and SERPINE1 were identified as genes crucial for transition from the diploid to the tetraploid stage and their aberrant expression correlated to the arrest of spermatogenesis in the Group D patients. Six tetraploid-specific genes and four haploid-specific genes were identified to be potential regulators of the tetraploid-haploid transition and responsible for the meiotic arrest. Over expression of the pro-inflammatory genes such as CCL3, IL1B and IL8 (Guazzone et al., 2009) was seen in the testis of the arrested patients which suggested that there was a potential alteration of the normal testicular micro-environment. Expression of EGR2 (a spermatogonial-maintenance gene controlling mitosis (Joseph et al., 1988)) was seen in the nucleus of spermatocytes in group DT patients which indicated its role in the meiotic arrest. To understand the role of the haploid-specific genes in the context of spermatocyte differentiation, only those genes whose expression are reported in the spermatocytes and persist till the spermatid stage were selected. Lack of expression of CST8 was identified to be potentially responsible for loss of germ cell integrity, and the loss of GGN expression in the Group DT patients seemed to be a significant contributor to the genotoxic stress in these patients. In the arrested patients RFX2 (reported to be master regulator of spermiogenesis (Wu et al., 2016)) was seen to be down regulated at the transcript level which indicated its role in the control of meiosis. This was further confirmed by IHC, where expression of RFX2 was seen to be present in the tetraploid cells of the Group DTH patients while no expression was seen in the tetraploid cells of Group DT patients. Thus, this study identified a role for RFX2 in the regulation of meiosis in humans, similar to the findings reported in rats (Horvath et al., 2009). The study also identified autophagy as a mechanism for the clearance of the arrested cells in NOA patients. IHC data using αLC3B showed that autophagy was up regulated in the arrested patients as compared to the Group DTH patients suggesting its role in cell survival and recycling of nutrients. Further, in-situ TUNEL labeling of tissue sections from the different groups (DTH, DT and D) revealed that there were no difference in the status of apoptosis in the azoospermic patients. The latter observation further corroborated with the elevated expressions of CDKN1A, GADD45A, MCL1, TNFAIP3 (reported to ensure cell survival by negatively modulating apoptosis) as seen in the NOA patients. In conclusion, this study identifies several genes that control the progression of spermatogenesis, including the genes whose alterations contribute towards an arrest in spermatogenesis, especially in azoospermia. These identified genes may be used as novel markers in the diagnosis of male infertility. The study opens up the possibility of using the identified genes as future therapeutic targets using small molecular regulators for treatment of infertility as well as targets for male contraception. The study also identifies a novel role for autophagy in patients with NOA which opens up new avenues for further investigation. Thus, this study is the beginning of understanding the complex events that regulate spermatogenesis. Azoospermia Human Testicular Tissue Samples Spermatogenomics Testicular Gene Expression Human Male Infertility Spermatogenomics Spermatogenesis Azoospermic Patients
298	Avaliação do desenvolvimento testicular de equinos da raça crioula no período da peri-puberdade / Evaluation of the testicular development of Criollo Horses in the period of the peripuberty Gregory, Joana Weber January 2012 (has links) Este estudo teve como objetivos caracterizar modificações no tamanho testicular e concentrações sanguíneas de testosterona relacionadas à idade, avaliar a presença de espematozóides epididimários, mensurar o diâmetro dos túbulos seminíferos e determinar o grau de maturação testicular, através da presença das células germinativas mais avançadas no epitélio seminífero de machos Crioulos no período da peri-puberdade. Os animais foram castrados cirurgicamente. Foi avaliada a circunferência torácica para estimativa do peso corporal. Trinta e quatro equinos foram agrupados em quatro categorias. O grupo I (GI) com quatro potros com idade de até 14 meses. O grupo II (GII) composto por sete animais com mais de 14 meses e menos de 17 meses. No terceiro grupo (GIII) foram incluídos 14 animais com mais de 17 meses e menos de 19 meses de idade e o último grupo (GIV) composto por nove equinos com mais de 19 meses e menos de 34 meses de idade. Após a castração os testículos foram pesados e medidos. Um fragmento foi coletado para posterior avaliação histológica e verificação do diâmetro dos túbulos seminíferos, além da presença de células germinativas do epitélio seminífero em diferentes fases de desenvolvimento. Uma amostra de sangue foi coletada para posterior determinação da concentração plasmática de testosterona. O peso médio dos animais no GI aumentou de 232 kg para 321 kg nos garanhões do GIV. Não houve diferença significativa entre medidas dos testículos direito e esquerdo. O peso e volume testicular apresentaram variações mais acentuadas nos animais no GIV e diferiram significativamente em relação aos animais mais jovens. Valores plasmáticos de testosterona não diferiram entre grupos e peso corporal. O diâmetro dos túbulos seminíferos apresentou variação mais marcante nos garanhões do GIV, aumentando de 89,13 μm nos potros do GI para 168,24 μm nos garanhões do GIV. Em média, 17,5% dos túbulos seminíferos não apresentaram células germinativas no GI, decrescendo para 5,4% no GII, 5,2% no GIII e 0,8% no GIV. O número de túbulos contendo espemátides maduras e espermatozóides aumentou conforme o avanço da idade dos animais. As variações mais acentuadas no incremento do volume testicular e aumento do diâmetro dos túbulos seminíferos coincidiram com a uma elevada presença de espermatozoides nos túbulos. Em conclusão, todos os animais com 20 meses de idade ou mais alcançaram a puberdade e os primeiros espermatozóides epididimários foram encontrados em potros com 16 meses. Ao testículo atingir um volume e peso testicular de 16cm3 e 23g, respectivamente, todos os animais apresentaram espermatozoides epididimários. / The objectives of this study were to characterize age-associated changes in testicular size and blood concentrations of testosterone, as well as evaluate the presence of epididymal sperm. The testicular maturity was evaluated by measuring seminiferous tubule diameter and the presence of the most advanced germ cells in the seminiferous epithelium of colts in the peri–puberty period. The animals were surgically castrated and thorax circumference was taken to estimate the body weight. Thirty four male horses were grouped into four categories: Group I (GI) with four foals aged up to 14 months; Group II (GII) with seven animals over 14 months and less than 17 months; The third group (GIII) included 14 animals over 17 months and less than 19 months; Group (GIV) was composed of nine horses over 19 months and under 34 months of age. After castration the testes were weighed and measured. A segment was collected for subsequent histological evaluation, including measurement of the diameter of the seminiferous tubules and the presence of germ cells of the seminiferous epithelium at different stages of development. A blood sample was collected for determination of plasma testosterone. The average body weight of the animals increased significantly from 232 kg in GI to 321 kg for horses in GIV. There was no difference between measures taken on right and left testes. The testicular weight and volume was greater in animals of GIV and differed significantly compared to the younger animals. Plasma levels of testosterone did not differ between age groups. The diameter of the seminiferous tubules increased from 89.13 μm in foals of GI to 168.24 μm in horses of GIV. On average, 17.5% of the seminiferous tubules had no germ cells in animals of GI, decreasing to 5.4% in GII, 5.2% in GIII and 0.8% in GIV. The number of tubules containing mature spermatids and spermatozoa increased with age. Most significant variations in the increase of testicular volume and diameter of seminiferous tubules were associated with a high presence of spermatozoa in the tubules. In conclusion all animals with 20 months of age or more had reached puberty in the present study and the first spermatozoa appeared in 16 month old colts. All animals presented epididymal sperm when testicular volume and weight were over 16cm3 and 23g, respectively. Equinos : Raça crioula Testículo : Desenvolvimento Equinos Espermatogenese : Animais Epididimo Biometria testicular : Equinos Puberty Horse Testes biometrics Epididymis Spermatogenesis Testosterone
299	Caracterização dos efeitos morfológicos no testículo de camundongos após envenenamento pelo veneno bruto e fração de baixo peso molecular da serpente Bothrops jararaca Ishihara, Daniele Yuri January 2014 (has links) Orientador: Prof. Dr. Carlos Alberto Silva / Dissertação (mestrado) - Universidade Federal do ABC, Programa de Pós-Graduação em Biotecnociência, 2014. / Os acidentes ofidicos sao considerados um problema de saude publica. Por este motivo, ha a necessidade de realizar estudos de caracterizacao do veneno, bem como os de tratamentos e da fisiopatologia do envenenamento. Os componentes do veneno possuem especificidade com varios receptores teciduais humanos, podendo desestabilizar o sistema nervoso, cardiovascular ou hemostatico. Os peptideos potenciadores de bradicinina (BPPs) foram os primeiros inibidores naturais da Enzima Conversora de Angiotensina (ECA) descritos, presentes na fracao de baixo peso molecular (Bj-FBP). No presente estudo foram avaliados as alteracoes no testiculo e musculo estriado esqueletico durante o processo de envenenamento induzido via intramuscular pela acao do veneno e da fracao de baixo peso molecular da serpente Bothropoides jararaca (Bj-V). 22 camundongos machos da linhagem Swiss foram aleatoriamente distribuidos em grupos de 6h e 24h e administrados uma dose de 20¿ÊL de NaCl 0,9% nos animais controle (n=3); 1.2 mg/kg de veneno bruto (Bj-V) (n=4) e 0.24 mg/kg da fracao de baixo peso molecular (Bj-FBP) (n=4). A fracao de baixo peso molecular foi obtida por uma filtracao com peso molecular de 10 kDa e analisado por Espectrometria de Massas onde confirmou a ausencia de indicios de proteinas ou enzimas proteoliticas. Apos o tratamento os testiculos e fragmentos do musculo reto femoral foram coletados e analisados para avaliacao morfologica dos tratamentos. O envenenamento foi caracterizado pela analise morfologica do musculo estriado esqueletico, onde verificou-se, nas amostras do tratamento com Bj-V, verificou-se presenca de hemorragia e necrose tecidual; nas amostras dos animais tratados com Bj-FBP verificou-se a integridade das fibras musculares, mas houve a presenca de migracao celular leucocitaria. Na analise histopatologica dos testiculos observou-se com maior frequencia, alteracoes na morfologia dos tubulos seminiferos dos camundongos tratados com Bj-V e Bj-FBP em comparacao ao controle. Em sintese, os resultados demonstraram que o envenenamento por Bj podem afetar os tubulos seminiferos, levando a presenca de tubulos hipoespermatogenicos, sendo assim, os individuos acometidos pelo acidente ofidico podem apresentar algum comprometimento na espermatogenese. / Snakebites are considered a public health problem. For this reason, there is a need for studies to characterize the poison and the pathophysiology and treatment of poisoning. The components of the venom have specificity with various human tissue receptors, may destabilize the nervous, cardiovascular or hemostatic system. The bradykinin potentiating peptides (BPPs) were the first natural inhibitors of Angiotensin Converting Enzyme (ACE) described, present in the low molecular weight fraction (Bj-FBP). In the present study the changes in the testis and skeletal muscle were assessed during the process of poisoning induced by intramuscular action of the poison and the fraction of low molecular weight Bothropoides snake jararaca (Bj-V). 22 male mice of the Swiss strain were randomly distributed in groups of 6h and 24h and administered a dose of 20¿ÊL of 0.9% NaCl in control animals (n = 3); 1.2 mg / kg of crude venom (Bj-V) (n = 4) and 0.24 mg / kg of low molecular weight fraction (Bj- FBP) (n = 4). The low molecular weight fraction was obtained by filtration with molecular weight 10kDa and analyzed by mass spectrometry which confirmed the absence of evidence of proteolytic enzymes or proteins. After treatment the testes and fragments of the rectus femoris muscle were collected and analyzed for morphologic evaluation of treatments. The poisoning was characterized by morphological analysis of the striated skeletal muscle, where it was found in the samples treated with Bj-V, there was the presence of hemorrhage and necrosis; in samples from animals treated with Bj-FBP was found the integrity of muscle fibers, but there was the presence of leukocyte cell migration. Histopathology of the testes was observed more frequently, changes in the morphology of the seminiferous tubules of mice treated with Bj and Bj-V-FBP compared to the control. In summary, the results showed that Bj poisoning can affect the seminiferous tubules, leading to the presence of hipoespermatogenicos tubules, so individuals affected by snakebite may have some involvement in spermatogenesis. BOTHROPOIDES JARARACA PEPTÍDEOS POTENCIADORES DE BRADICININA ESPERMATOGENESE BOTHROPS JARARACA BRADYKININ POTENTIATING PEPTIDES SPERMATOGENESIS
300	Caractérisation fonctionnelle des protéines des appendices du corps basal et de la zone de transition / Functional caracterisation of basal body appendages and transition zone proteins of cilia Augière, Céline 29 September 2017 (has links) Les cils et les flagelles sont des organites conservés chez les eucaryotes où ils jouent des rôles essentiels et variés comme la motilité et la signalisation cellulaire. La zone de transition est une structure complexe, localisée à la base des cils, indispensable à l'assemblage du cil et pour la sélection des constituants ciliaires. Chez l'Homme, de nombreuses pathologies appelées ciliopathies sont associées à des défauts d'assemblage ou de fonctionnement des cils. Les plus sévères sont liées à des défauts de protéines de la zone de transition. La zone de transition comprend les fibres de transition qui font le lien entre le centriole et la membrane plasmique, puis les liens Y avec une composition protéique complexe organisé en 3 complexes, MKS, NPHP et CEP290 interagissant étroitement entre eux. D'autres protéines, dont CBY conservée des mammifères à la drosophile, s'ajoutent à ces modules mais leur interconnections ne sont pas connues.Au cours de ma thèse, j'ai caractérisé fonctionnellement les orthologues des protéines des fibres de transition et analysé la fonction de nouvelles protéines de la zone de transition en utilisant le modèle de la drosophile. J'ai également caractérisé une protéine impliquée dans la spermatogenèse qui est essentielle pour l'individualisation des spermatides et la fertilité des males.En conclusion, ce travail apporte de nouvelles connaissances sur l'assemblage de la zone de transition et sur le rôle de CBY dans les mécanismes qui contrôlent la ciliogenèse. De plus l'étude de Salto amène à une meilleure compréhension de la spermatogenèse chez la drosophile / Cilia and flagella are highly conserved organelles among eukaryotes species. They are composed of a microtubular cytoskeleton and play essential functions during development and in numerous physiological processes. As a result, in humans, cilia dysfunction leads to a wide range of pathologies, called ciliopathies Cil Spermatogenèse Drosophile Centrioles Appendices distaux Zone de transition Individualisation Cilia Spermatogenesis Drosophila Centrioles Distal appendages Transition zone Individualization 570

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