Hormonal regulation of the testicular Sertoli cell tight junction

McCabe, Mark James, markmccabe02@hotmail.com

January 2008

The Sertoli cell tight junction (TJ) of the seminiferous epithelium is important for the developmental process of spermatogenesis as it separates germ cells in the seminiferous tubules from the general circulation in the testicular interstitium. Absence of the TJ leads to spermatogenic arrest and infertility. TJs form at puberty as circulating gonadotrophins luteinising hormone/testosterone and follicle stimulating hormone increase. Several studies have demonstrated hormonal regulation of the two major TJ proteins, claudin-11 and occludin, and also of TJ function in vitro and in vivo. Men with low levels of circulating gonadotrophins exhibit an immature and dysfunctional TJ phenotype, which is reversed upon the exogenous application of gonadotrophins. This thesis hypothesises that claudin-11 and occludin are the major contributors to TJ function, and that gonadotrophins regulate TJ function and structure via these two proteins in several species including humans. This PhD was divided into four separate studies to address these hypotheses. The first study selectively silenced the genetic expression of claudin-11 and occludin with small interfering RNA (siRNA) in cultured immature rat Sertoli cells to determine their contribution to Sertoli cell TJ function in vitro. siRNA treatment against either protein significantly (p less than 0.01) reduced TJ function by ~50% as assessed by transepithelial electrical resistance. Immunocytochemistry displayed marked reductions in the localisation of these proteins to the TJ after siRNA treatment. It was concluded that both proteins significantly contributed to TJ function in vitro. The second and third studies then aimed to study hormonal regulation of the TJ in vivo. Weekly injections of the gonadotrophin releasing hormone antagonist acyline were used to suppress circulating gonadotrophins and spermatogenesis in adult rats. Acyline treatment disrupted i) the localisation of occludin to the TJ and ii) TJ function as shown by permeability to a biotin tracer, which was impermeable to TJs in controls. Short-term hormone replacement partially restored the effects of gonadotrophin suppression. It was concluded that gonadotrophins regulate the maintenance of the TJ in rats in vivo. The third study used the hypogonadal (hpg) mouse, which is a naturally occurring model of gonadotrophin deficiency with inactive spermatogenesis. Claudin-11 in hpg mice was not localised at the TJs, and these were dysfunctional as shown by permeability to biotin. Following hormone treatment, TJs were structurally and functionally competent, demonstrating that gonadotrophins also regulate the formation of TJs in vivo. The fourth study subsequently analysed TJs in gonadotrophin suppressed men, and it was found that claudin-11 staining was reduced from continuous bands in control men, to punctate staining in gonadotrophin-suppressed men, demonstrating that gonadotrophins also regulate the localisation of claudin-11 to the TJ in men in vivo. In summary, it is concluded that the Sertoli cell TJ is hormonally regulated, and that the major contributors to TJ function in vivo and in vitro are claudin-11 and occludin. It is hypothesised that the reduction of claudin-11 localisation to the TJ in men may also result in a loss of human Sertoli cell TJ function, suggesting that the TJ may be a potential target of hormonal contraception in men.

Tight junction

spermatogenesis

claudin-11

occludin

gonadotrophins

Sertoli cell

The Effects of Simulated Microgravity on the Seminiferous Tubules of Rats

Forsman, Allan D.

15 February 2012

Space flight has been shown to have many adverse effects on various systems throughout the body. Because the opportunity to place research animals on board a Space Shuttle or the International Space Station is infrequent, various techniques have been designed to simulate the effects of microgravity in Earth based laboratories. A commonly used technique is known as antiorthostatic suspension, also often referred to as hind limb suspension. In this technique the hind portion of the animal is raised so that its hind limbs are non-weight bearing. This places the animal in roughly a 30° head down tilt position. This results in cephalic fluid shifts similar to those seen in actual space flight. This technique has also been shown to mimic other physiological parameters that are affected during space flight. This study examined testicular tissue from rats subjected to a 7 day antiorthostatic suspension. This tissue was acquired through a tissue sharing program and some of the experimental animals were injected with Interleukin 1 receptor antagonist (IL-1ra) which was hoped to ameliorate some of the effects of antiorthostatic suspension. The injection of IL-1ra was not expected to have any effect on testicular tissue, however this tissue was included in the morphological and statistical analysis to conduct a more complete study. All tissues were embedded in paraffin, sectioned, and stained using standard H&E staining. The tissue was then qualitatively ranked according to the "health" of the seminiferous tubules. Our findings indicate that 7 days of antiorthostatic suspension had adverse effects on the tissue that comprises the walls of the seminiferous tubules. It has long been known that antiorthostatic suspension has deleterious effects on testicular tissue, however this research indicates that these effects occur much faster than indicated by previous researchers. This is a significant finding because it indicates that meaningful earth based studies in this area can be carried out in a shorter time span. This could result in more studies per year as well as saving money by avoiding longer than necessary animal suspensions. This is especially important as we enter an era when, without Space Shuttle, flight opportunities will become scarce. These antiorthostatic suspension studies indicate that space flight, even short duration spaceflight, may have harmful effects on the seminiferous tubules and blood-testis barrier of astronauts.

microgravity

seminiferous tubule

sertoli cell

sperm

spermatogonia

Health Sciences

The Effect of Pyrethroid Compounds on the Expression of Estrogen Receptors in Mouse Sertoli Cells and Implications for Male Infertility

Taylor, Jacqueline Susan

January 2006

Male fertility is largely controlled by the hypothalamic-pituitary axis, a careful balance between stimulating and suppressing gene expression and the secretion of hormones. The critical factors for male fertility have in the past been thought to be limited to testosterone and the gonadotropins. Estrogen has only recently been demonstrated to be both a crucial requirement for fertility and a cause of infertility. Reports in the early 1990s demonstrated a decrease in mean sperm counts over the last 50 years. A hypothesis for this observation is the increase of xenoestrogens in the environment that are able to mimic and potential disrupt the natural estrogens involvement in fertility. Although the mechanisms of estrogens involvement are not yet defined, the Sertoli cells are a potential sites of action as they possess receptors for the hormone and are able to locally produce it. Sertoli cells both act to protect and provide for the male germ cells and the developing spermatozoa. Pyrethroids are common synthetic insecticides of which some have previously shown estrogenic activity. Therefore this investigation examined the effects of pyrethoids, whose estrogenicity was confirmed via the yeast assay, on the estrogen receptor expression in mouse Sertoli cells as a model for general effects of estrogenic chemicals on male fertility. The results first confirmed the estrogenicity of some pyrethroids and these pyrethroids when exposed to mouse Sertoli cells effected estrogen receptor mRNA expression however in a different way to the natural ligand 17β-estradiol.

sperm

xenoestrogens

receptors

male reproductive tissues

signal transduction

pyrethroids

RNA

TM4 mouse sertoli cell culture

The Effect of Pyrethroid Compounds on the Expression of Estrogen Receptors in Mouse Sertoli Cells and Implications for Male Infertility

Taylor, Jacqueline Susan

January 2006

Male fertility is largely controlled by the hypothalamic-pituitary axis, a careful balance between stimulating and suppressing gene expression and the secretion of hormones. The critical factors for male fertility have in the past been thought to be limited to testosterone and the gonadotropins. Estrogen has only recently been demonstrated to be both a crucial requirement for fertility and a cause of infertility. Reports in the early 1990s demonstrated a decrease in mean sperm counts over the last 50 years. A hypothesis for this observation is the increase of xenoestrogens in the environment that are able to mimic and potential disrupt the natural estrogens involvement in fertility. Although the mechanisms of estrogens involvement are not yet defined, the Sertoli cells are a potential sites of action as they possess receptors for the hormone and are able to locally produce it. Sertoli cells both act to protect and provide for the male germ cells and the developing spermatozoa. Pyrethroids are common synthetic insecticides of which some have previously shown estrogenic activity. Therefore this investigation examined the effects of pyrethoids, whose estrogenicity was confirmed via the yeast assay, on the estrogen receptor expression in mouse Sertoli cells as a model for general effects of estrogenic chemicals on male fertility. The results first confirmed the estrogenicity of some pyrethroids and these pyrethroids when exposed to mouse Sertoli cells effected estrogen receptor mRNA expression however in a different way to the natural ligand 17β-estradiol.

sperm

xenoestrogens

receptors

male reproductive tissues

signal transduction

pyrethroids

RNA

TM4 mouse sertoli cell culture

Intervenção farmacológica sobre o sistema serotoninérgico durante o desenvolvimento testicular pré-natal e neonatal de ratos Wistar utilizando cloridrato de fluoxetina

MONTEIRO FILHO, Waldo Oliveira

31 July 2009

Submitted by (edna.saturno@ufrpe.br) on 2016-11-08T12:52:57Z No. of bitstreams: 1 Waldo Oliveira Monteiro Filho.pdf: 1607300 bytes, checksum: aa0749d6dd1cc7f00a1f19730ca34d59 (MD5) / Made available in DSpace on 2016-11-08T12:52:57Z (GMT). No. of bitstreams: 1 Waldo Oliveira Monteiro Filho.pdf: 1607300 bytes, checksum: aa0749d6dd1cc7f00a1f19730ca34d59 (MD5) Previous issue date: 2009-07-31 / Currently, selective serotonin reuptake inhibitors (SSRIs) are the most frequently prescribed antidepressants for the treatment of depression and major side effects in adults related to sexual dysfunction. Depressive disorders are common both during the prenatal period and early months after birth and fluoxetine is widely used to treat depression in this period. Until the present moment, no further study on the pharmacological intervention in the serotonin system during the critical period for testicular development in neonatal rats and the effects on the spermatogenic process in sexually mature rats was performed. We carried out 3 experiments using fluoxetine hydrochloride. In the first experiment observed the effect of direct administration of fluoxetine during postnatal testicular development in rats, but with assessment at 150 days of age. In this paper, we observed reduction in testicular weight gross and net volume of tubules and seminiferous epithelium. The tubular diameter was reduced in animals treated with 20 mg/Kg which caused an increase in total length of seminiferous tubules in this group. There were no histological changes in the population of Sertoli cells, daily sperm production and efficiency of the spermatogenic process. The second experiment studied the effects of transplacental transfer of fluoxetine and breast milk on the testicular development of prepubertal rats. In this experiment, were observed changes in the body weight development, in the testicular volumetric parameters and total length of seminiferous tubules, mainly in higher doses of fluoxetine. There was a trend of reduction of Sertoli cells population and delay in the appearance tubular lumen in animals exposed to higher dose. Inthe third experiment was used the same protocol of the second experiment, but the testis were performed in rats sexually mature. According to the results was observed that fetal and neonatal contact with fluoxetine during the critical period of Sertoli cells proliferation influenced the somatic development of animals and induced changes in testicular parameters, such as the weight of the epididymis and seminal gland, volumes of the seminiferous epithelium, the total Leydig cells volume, total length of seminiferous tubules and a trend of reduction in sperm production per testis. Although fluoxetine has interfered with the Leydig cells volumetry, were not observed changes in plasma levels of testosterone and spermatogenesis. Most of the changes were related to the group treated with the highest dosage of the antidepressant, 20 mg/kg, implying that this dosage fluoxetine may actually cause changes in somatic development and reproductive function. / Atualmente, os inibidores da recaptação seletiva da serotonina (ISRS) são os antidepressivos mais freqüentemente prescritos para o tratamento da depressão, sendo o principal efeito colateral em adultos relacionado às disfunções sexuais. Distúrbios depressivos são comuns tanto durante o período pré-natal quanto nos meses iniciais após o nascimento e a fluoxetina é largamente utilizado no tratamento da depressão neste período. Até o presente momento, nenhum estudo mais pormenorizado sobre a intervenção farmacológica do sistema serotoninérgico durante o período crítico do desenvolvimento testicular em ratos neonatos e os seus reflexos no processo espermatogênico em ratos maturos sexualmente foi realizado. Neste trabalho foram realizados 3 experimentos utilizando cloridrato de fluoxetina. No primeiro experimento foi observado o efeito da administração direta da fluoxetina durante o período pós-natal do desenvolvimento testicular de ratos Wistar porém, com avaliação aos 150 dias de idade. Neste trabalho se observou redução o peso testicular bruto e líquido, volume de túbulos e epitélio seminíferos. O diâmetro tubular foi reduzido nos animais tratados com 20mg/Kg o que gerou aumento no comprimento total de túbulos seminíferos neste grupo. Não foram observadas alterações morfométricas na população de células de Sertoli, produção espermática diária e eficiência do processo espermatogênico. No segundo experimento foram estudados os efeitos da transferência de fluoxetina transplacentária e pelo leite materno sobre o desenvolvimento testicular de ratos Wistar pré-buberes. Neste experimento se observou alterações no desenvolvimento ponderal de peso corporal, em parâmetros volumétricos testiculares e comprimento total de túbulos seminíferos em dosagensmais elevadas de fluoxetina. Notou-se tendência de redução da população total de células de Sertoli por testículo e atraso no aparecimento do lume tubular nos animais expostos a maior dose. No terceiro experimento se utilizou o mesmo protocolo do segundo experimento, porém as análises foram realizadas em animais maturos sexualmente. De acordo com os resultados observados o contato fetal e neonatal com fluoxetina, no período crítico de proliferação das células de Sertoli influenciou no desenvolvimento somático dos animais e ocasionou alterações em parâmetros testiculares, tais como o peso de epidídimo e glândula seminal, volumetria do epitélio seminífero, volumetria total das células de Leydig, comprimento total dos túbulos seminíferos e uma tendência de redução na produção espermática por testículo. Ainda que a fluoxetina tenha interferido na volumetria das células de Leydig, não se constatou alteração nos níveis plasmáticos de testosterona e da espermatogênese. A maior parte das alterações está relacionada ao grupo tratado com a maior dosagem do antidepressivo, 20mg/Kg, inferindo que nessa dosagem a fluoxetina pode, de fato, causar alterações no desenvolvimento somático e do aparelho reprodutivo.

Rato

Testículo

Célula de Sertoli

Serotonina

Fluoxetina

Rat

Sertoli cell

Fluoxetine

CIENCIAS AGRARIAS::MEDICINA VETERINARIA

Studium regeneračního potenciálu progenitorů Sertoliho buněk u pulců Xenopus tropicalis po amputaci ocasu. / Study of regenerative potential of Sertoli cell progenitors in Xenopus tropicalis tadpoles after tail amputation.

Wróblová, Aneta

January 2020

African clawed frogs (Xenopus) represent an ideal model organism for study of regeneration mechanisms. In frogs, complete regeneration occurs in the tadpole stage. In later stages the regeneration capacity is lost. The Laboratory of Developmental biology was successful in establishment of cell culture called Xenopus tropicalis immature Sertoli cells (XtiSCs) derived from X. tropicalis testes. These cells are common progenitors of Sertoli cells and peritubular myoid cells. XtiSCs show similar characteristics as mesenchymal stem cells. MSCs hold interest of scientists for their immunomodulatory properties and multipotent differential and regeneration potential. In this thesis, we studied regeneration and migration potential of XtiSCs after X. tropicalis tadpole's tail amputation in developmental stage 47 - 50. Transgenic XtiSCs culture expressing RFP was prepared to facilitate transplantation experiments. Transplantation experiments showed preferential migration of XtiSCs into the site of injury. XtiSCs transplantations in X. laevis tadpoles with downregulated NO synthases eNOS and nNOS revealed their migratory dependence on nitric oxide signalization. Imunocytochemical staining of XtiSCs in vitro showed positive iNOS, nNOS and Pax7 expression. Imunohistochemical staining of tadpole's tail vibratome...

Silver nanoparticle-mediated cellular responses in isolated primary Sertoli cells in vitro

Habas, Khaled S.A., Brinkworth, Martin H., Anderson, Diana

14 April 2018

Yes / The present study explored the mechanism of cytotoxic and genotoxic effects of AgNPs on a primary culture of mouse Sertoli cells in vitro. To understand the possible molecular mechanisms of testicular lesions following exposure to AgNPs, isolated Sertoli cells were exposed to 5, 10, or 15 μg/ml. DNA damage in the Comet assay and apoptosis in the TUNEL assay were evaluated. The mRNA expression of p53 and bcl-2 genes and their proteins involved in apoptosis was also investigated. The antioxidant status of treated Sertoli cells was determined by measuring superoxide dismutase (SOD-1), catalase (CAT), and glutathione peroxidase (GPX-1) and superoxide dismutase (SOD-1) using quantitative polymerase chain reaction (qPCR)qPCR. The superoxide anions were detected using the nitroblue tetrazolium (NBT) reduction assay. Results indicated that AgNP exposure causes increased oxidative stress levels. The activation of p53, repression of bcl-2 and reduction of endogenous antioxidant enzymes were also involved in these mechanistic pathways, leading to reduced cell numbers and cell detachment. / The Sponsorship of the Libyan Government of a PhD studentship to Khaled Habas

Targeted Knockout of Beclin-1 Reveals an Essential Function in Ovary and Testis

Gawriluk, Thomas R

01 January 2014

An estimated 12% of couples worldwide are infertile. The contributing factor is approximately equal between men and women with nearly 25% diagnosed as idiopathic. Despite the increasing numbers of couples seeking assistance from infertility clinics, few molecular mechanisms have been identified for treatment. Autophagy is an evolutionarily conserved cellular process for bulk degradation and recycling of cytosolic components through the lysosome to maintain homeostasis. Several studies have observed increased levels of autophagy during ovarian folliculogenesis and gonadal steroidogenesis; however, no genetic studies to determine the significance of autophagy exist. To investigate the function of autophagy in the ovary and testis, a directed genetic knockout approach was used to independently knockout two key autophagy genes, Becn1 and Atg7. Chapter 2 reports that deficiency of Becn1 results in 56% fewer primordial follicles at postnatal day 1. In addition, Atg7 knockout mice do not have identifiable primordial follicles, suggesting that autophagy is necessary for survival of female germ cells during embryogenesis. Chapter 3 presents that Becn1 is necessary to sustain pregnancy and the deficiency of Becn1 in granulosa cells is a novel genetic model to study preterm labor due to impaired corpora lutea function. The results indicate that Becn1 is necessary for lipid droplet formation and subsequent progesterone production in luteal cells. In contrast, Atg7 is not necessary and deficiency results in overproduction of progesterone throughout pregnancy, suggesting that the defect in Becn1 conditional knockout mice is additional to autophagy. Chapter 4 presents that Sertoli cell expression of Becn1 is required for spermatogenesis after 8 weeks of age. Beyond 9-weeks-old, Becn1 conditional knockout mice are unable to sire a litter due to a failure of spermatogenesis and a Sertoli-cell-only phenotype in a majority of the seminiferous tubules. Atg7 was also identified as a necessary factor for spermatogenesis beyond 26-weeks-old. Together the data presented in Chapter 4 suggests that autophagy is necessary for adult Sertoli cell function. Primarily, this dissertation presents data from the first functional studies on autophagy in the reproductive tract. The results demonstrate an understanding of the functional significance for Becn1 and Atg7 in both the ovary and testis.

Autophagy

Reproductive Biology

Oocyte Attrition

Corpus Luteum

Sertoli Cell

Biology

Developmental Biology

Laboratory and Basic Science Research

Molecular genetics

Le traductome induit par le récepteur FSH et l'implication des B-arrestines dans le contrôle de la traduction des ARNm 5' TOP / Translatome induced by FSH receptor and beta-arrestins implications involved in translation control of 5'Top mRNA

Tréfier, Aurelie

21 December 2017

La FSH est une des hormones clés qui régule la reproduction chez les mammifères. Chez le mâle, elle cible les cellules de Sertoli, qui expriment le RFSH. La cellule de Sertoli a un rôle trophique important pour le bon développement de la spermatogenèse. Dans cette thèse, nous avons établi le premier traductome, c’est-à-dire l’ensemble des ARNm en cours de traduction, dépendant du RFSH. La traduction de certains ARNm significativement modulés par la FSH exercerait un rétrocontrôle sur la signalisation FSH-dépendante. L’analyse du protéome nous a permis de valider ce traductome au niveau systémique. Nous avons également démontré l’implication des β-arrestines dans la traduction d’ARNm dépendante de la FSH. Les β-arrestines forment un assemblage moléculaire avec le module de traduction p70S6K/rpS6. Cet assemblage est impliqué dans la traduction des ARNm 5’TOP, qui encodent la machinerie traductionnelle. C’est l’activation FSHdépendante des protéines G qui promeut l’activation de p70S6K au sein du module β-arrestines/ p70S6K/ rpS6. Ce travail constitue une nouvelle avancée sur les mécanismes grâce auxquels la FSH exerce sa fonction biologique de dans ses cellules-cibles naturelles de la gonade mâle. / FSH is one of the key hormones that regulate the reproductive function in mammals. In the male, FSH targets Sertoli cells, which express the FSHR. Sertoli cells play an important trophic role in the development of spermatogenesis. Here, we have provided the first FSHR-induced translatome, that encompasses all the mRNA being actively translated. The translation of some mRNAs significantly modulated by FSH may exert a feedback control on FSH-dependent signaling. The analysis of the proteome has validated the FSHR translatome at the systems level. We also demonstrated the involvement of β-arrestins in the FSH-stimulated translation of mRNA. β-arrestins form a molecular assembly with the p70S6K / rpS6 translation module. This molecular assembly is involved in the translation of 5'TOP mRNA, which encode proteins of the translational machinery. FSH-activated G proteins leads to p70S6K activation within the β-arrestins/ p70S6K/ rpS6 module. This work provides new advance on the mechanisms whereby FSH exerts its biological function in its natural target cells of the male gonad.

RCPG

RFSH

FSH

Cellule de Sertoli

Traduction

Polysome profiling

RNA-seq

Traductome

Protéome

"β-arrestines"

"p70S6K"

ARNm 5’TOP

GPCR

FSHR

FSH

Sertoli cell

Translation

Polysome profiling

RNA-seq

Translatome

Proteome

"β-arrestins"

"p70S6K"

5’TOP mRNA