Cytokines, Polarity Proteins, and Endosomal Protein Trafficking and Signaling—The Sertoli Cell Blood–Testis Barrier System In Vitro as a Study Model

The blood-testis barrier (BTB) is one of the tightest blood-tissue barriers in the mammalian body. However, it undergoes cyclic restructuring during the epithelial cycle of spermatogenesis in which the “old” BTB located above the preleptotene spermatocytes being transported across the immunological barrier is “disassembled,” whereas the “new” BTB found behind these germ cells is rapidly “reassembled,” i.e., mediated by endocytic vesicle-mediated protein trafficking events. Thus, the immunological barrier is maintained when preleptotene spermatocytes connected in clones via intercellular bridges are transported across the BTB. Yet the underlying mechanism(s) in particular the involving regulatory molecules that coordinate these events remains unknown. We hypothesized that c-Src and c-Yes might work in contrasting roles in endocytic vesicle-mediated trafficking, serving as molecular switches, to effectively disassemble and reassemble the old and the new BTB, respectively, to facilitate preleptotene spermatocyte transport across the BTB. Following siRNA-mediated specific knockdown of c-Src or c-Yes in Sertoli cells, we utilized biochemical assays to assess the changes in protein endocytosis, recycling, degradation and phagocytosis. c-Yes was found to promote endocytosed integral membrane BTB proteins to the pathway of transcytosis and recycling so that internalized proteins could be effectively used to assemble new BTB from the disassembling old BTB, whereas c-Src promotes endocytosed Sertoli cell BTB proteins to endosome-mediated protein degradation for the degeneration of the old BTB. By using fluorescence beads mimicking apoptotic germ cells, Sertoli cells were found to engulf beads via c-Src-mediated phagocytosis. A hypothetical model that serves as the framework for future investigation is thus proposed.

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Functional assessment of a human in vitro sertoli cell based blood-testis-barrier model

Fertility and Sterility ◽

10.1016/j.fertnstert.2010.07.527 ◽

2010 ◽

Vol 94 (4) ◽

pp. S130-S131

Author(s):

P.J. Turek ◽

K. Chu ◽

P.F. Dazin ◽

G.A. Rabinowich ◽

C.C. Yan ◽

...

Keyword(s):

Sertoli Cell ◽

Functional Assessment ◽

Barrier Model ◽

Blood Testis Barrier

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Effect of cadmium chloride on transepithelial electrical resistance of sertoli cell monolayers in two-compartment cultures—A new model for toxicological investigations of the “Blood-testis” barrier in vitro

Toxicology and Applied Pharmacology ◽

10.1016/0041-008x(92)90278-z ◽

1992 ◽

Vol 112 (1) ◽

pp. 51-57 ◽

Cited By ~ 107

Author(s):

Andrzej Janecki ◽

Andrzej Jakubowiak ◽

Anna Steinberger

Keyword(s):

Sertoli Cell ◽

Electrical Resistance ◽

Cadmium Chloride ◽

Transepithelial Electrical Resistance ◽

New Model ◽

Cell Monolayers ◽

Blood Testis Barrier

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EB1 Regulates Tubulin and Actin Cytoskeletal Networks at the Sertoli Cell Blood-Testis Barrier in Male Rats: An In Vitro Study

Endocrinology ◽

10.1210/en.2014-1720 ◽

2014 ◽

Vol 156 (2) ◽

pp. 680-693 ◽

Cited By ~ 39

Author(s):

Elizabeth I. Tang ◽

Ka-Wai Mok ◽

Will M. Lee ◽

C. Yan Cheng

Keyword(s):

Sertoli Cell ◽

In Vitro Study ◽

Vitro Study ◽

Male Rats ◽

Cytoskeletal Networks ◽

Blood Testis Barrier

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Claudin-11 expression and localisation is regulated by androgens in rat Sertoli cells in vitro

Reproduction ◽

10.1530/rep-06-0385 ◽

2007 ◽

Vol 133 (6) ◽

pp. 1169-1179 ◽

Cited By ~ 97

Author(s):

Tu’uhevaha J Kaitu’u-Lino ◽

Pavel Sluka ◽

Caroline F H Foo ◽

Peter G Stanton

Keyword(s):

Mrna Expression ◽

Sertoli Cell ◽

Sertoli Cells ◽

Hormonal Regulation ◽

Cell Contacts ◽

Barrier Formation ◽

Protein Components ◽

Blood Testis Barrier

Claudin-11 and occludin are protein components in tight junctions (TJs) between Sertoli cells which are important for the maintenance of the blood–testis barrier. Barrier formation occurs during puberty, with evidence suggesting hormonal regulation of both claudin-11 and occludin. This study aimed to investigate the regulation of claudin-11 and occludin mRNA expression by testosterone (T) and FSH and their immunolocalisation at rat Sertoli cell TJsin vitro, and to correlate any steroid regulation with the functional capacity of TJs. Sertoli cells formed functional TJs within 3 days as assessed by transepithelial electrical resistance (TER). Both T and dihydrotestosterone significantly (P< 0.01) increased TER twofold and claudin-11 mRNA two- to threefold within 3 days. FSH partially stimulated TER and claudin-11 mRNA, but estradiol had no effect. T also promoted claudin-11 localisation into extensive intercellular contacts. In contrast to claudin-11, Tand FSH did not change occludin mRNA expression, however, T promoted localisation of occludin at cell contacts in a similar manner to claudin-11. Addition of flutamide to T-stimulated cells caused a twofold decrease in both TER and claudin-11 mRNA expression, and resulted in the loss of both proteins from cell contacts. This effect was reversible following flutamide removal. It is concluded that androgens i) co-regulate claudin-11 mRNA expression and TER, implicating claudin-11 in TJ formation and ii) promote the localisation of claudin-11 and occludin at Sertoli cell contacts. Hence, the ability of androgens to maintain spermatogenesisin vivois partly via their effects on TJ proteins and regulation of the blood–testis barrier.

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An In Vitro Assay to Monitor Sertoli Cell Blood-Testis Barrier (BTB) Integrity

10.1007/7651_2021_390 ◽

2021 ◽

Author(s):

Siwen Wu ◽

Lingling Wang ◽

Elizabeth I. Tang ◽

Junlu Wang ◽

C. Yan Cheng

Keyword(s):

Sertoli Cell ◽

In Vitro Assay ◽

Vitro Assay ◽

Blood Testis Barrier

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An Occludin-Focal Adhesion Kinase Protein Complex at the Blood-Testis Barrier: A Study Using the Cadmium Model

Endocrinology ◽

10.1210/en.2008-1741 ◽

2009 ◽

Vol 150 (7) ◽

pp. 3336-3344 ◽

Cited By ~ 76

Author(s):

Erica R. Siu ◽

Elissa W. P. Wong ◽

Dolores D. Mruk ◽

K. L. Sze ◽

Catarina S. Porto ◽

...

Keyword(s):

Focal Adhesion Kinase ◽

Sertoli Cell ◽

Focal Adhesion ◽

Adhesion Molecule ◽

Protein Complex ◽

Permeability Barrier ◽

Ectoplasmic Specialization ◽

Blood Testis Barrier

Several integral membrane proteins that constitute the blood-testis barrier (BTB) in mammalian testes, in particular rodents, are known to date. These include tight junction (TJ) proteins (e.g. occludin, junctional adhesion molecule-A, claudins), basal ectoplasmic specialization proteins (e.g. N-cadherin), and gap junction proteins (e.g. connexin43). However, the regulators (e.g. protein kinases and phosphatases) that affect these proteins, such as their interaction with the cytoskeletal actin, which in turn confer cell adhesion at the TJ, remain largely unknown. We report herein that focal adhesion kinase (FAK) is a putative interacting partner of occludin, but not claudin-11 or junctional adhesion molecule-A. Immunohistochemistry and fluorescence microscopy studies illustrated that the expression of FAK in the seminiferous epithelium of adult rat testes was stage specific. FAK colocalized with occludin at the BTB in virtually all stages of the seminiferous epithelial cycle but considerably diminished in stages VIII–IX, at the time of BTB restructuring to facilitate the transit of primary leptotene spermatocytes. Using Sertoli cells cultured in vitro with established TJ-permeability barrier and ultrastructures of TJ, basal ectoplasmic specialization and desmosome-like junction that mimicked the BTB in vivo, FAK was shown to colocalize with occludin and zonula occludens-1 (ZO-1) at the Sertoli-Sertoli cell interface. When these Sertoli cell cultures were treated with CdCl2 to perturb the TJ-barrier function, occludin underwent endocytic-mediated internalization in parallel with FAK and ZO-1. Thus, these findings demonstrate that FAK is an integrated regulatory component of the occludin-ZO-1 protein complex, suggesting that functional studies can be performed to study the role of FAK in BTB dynamics.

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Selenium (Na2SeO3) Upregulates Expression of Immune Genes and Blood–Testis Barrier Constituent Proteins of Bovine Sertoli Cell In Vitro

Biological Trace Element Research ◽

10.1007/s12011-018-1248-7 ◽

2018 ◽

Vol 185 (2) ◽

pp. 332-343 ◽

Cited By ~ 8

Author(s):

E.O Adegoke ◽

Xue Wang ◽

Hao Wang ◽

Chen Wang ◽

Han Zhang ◽

...

Keyword(s):

Sertoli Cell ◽

Immune Genes ◽

Blood Testis Barrier

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Filamin A Is a Regulator of Blood-Testis Barrier Assembly during Postnatal Development in the Rat Testis

Endocrinology ◽

10.1210/en.2012-1286 ◽

2012 ◽

Vol 153 (10) ◽

pp. 5023-5035 ◽

Cited By ~ 17

Author(s):

Wenhui Su ◽

Dolores D. Mruk ◽

Pearl P. Y. Lie ◽

Wing-yee Lui ◽

C. Yan Cheng

Keyword(s):

Postnatal Development ◽

Sertoli Cell ◽

Actin Filament ◽

Permeability Barrier ◽

Filamin A ◽

Rat Testis ◽

Filament Network ◽

Blood Testis Barrier

Abstract The blood-testis barrier (BTB) is an important ultrastructure in the testis. A delay in its assembly during postnatal development leads to meiotic arrest. Also, a disruption of the BTB by toxicants in adult rats leads to a failure in spermatogonial differentiation. However, the regulation of BTB assembly remains unknown. Herein, filamin A, an actin filament cross-linker that is known to maintain and regulate cytoskeleton structure and function in other epithelia, was shown to be highly expressed during the assembly of Sertoli cell BTB in vitro and postnatal development of BTB in vivo, perhaps being used to maintain the actin filament network at the BTB. A knockdown of filamin A by RNA interference was found to partially perturb the Sertoli cell tight junction (TJ) permeability barrier both in vitro and in vivo. Interestingly, this down-regulating effect on the TJ barrier function after the knockdown of filamin A was associated with a mis-localization of both TJ and basal ectoplasmic specialization proteins. Filamin A knockdown also induced a disorganization of the actin filament network in Sertoli cells in vitro and in vivo. Collectively, these findings illustrate that filamin A regulates BTB assembly by recruiting these proteins to the microenvironment in the seminiferous epithelium to serve as the building blocks. In short, filamin A participates in BTB assembly by regulating protein recruitment during postnatal development in the rat testis.

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Perfluorooctanesulfonate (PFOS) Perturbs Male Rat Sertoli Cell Blood-Testis Barrier Function by Affecting F-Actin Organization via p-FAK-Tyr407: An in Vitro Study

Endocrinology ◽

10.1210/en.2013-1657 ◽

2014 ◽

Vol 155 (1) ◽

pp. 249-262 ◽

Cited By ~ 64

Author(s):

Hin-Ting Wan ◽

Dolores D. Mruk ◽

Chris K. C. Wong ◽

C. Yan Cheng

Keyword(s):

Tight Junction ◽

Sertoli Cell ◽

Sertoli Cells ◽

Connexin 43 ◽

Male Rat ◽

Environmental Toxicants ◽

Adhesion Proteins ◽

Actin Organization ◽

Blood Testis Barrier

Environmental toxicants such as perfluorooctanesulfonate (PFOS) have been implicated in male reproductive dysfunction, including reduced sperm count and semen quality, in humans. However, the underlying mechanism(s) remains unknown. Herein PFOS at 10–20 μM (∼5–10 μg/mL) was found to be more potent than bisphenol A (100 μM) in perturbing the blood-testis barrier (BTB) function by disrupting the Sertoli cell tight junction-permeability barrier without detectable cytotoxicity. We also delineated the underlying molecular mechanism by which PFOS perturbed Sertoli cell BTB function using an in vitro model that mimics the BTB in vivo. First, PFOS perturbed F-actin organization in Sertoli cells, causing truncation of actin filaments at the BTB. Thus, the actin-based cytoskeleton was no longer capable of supporting the distribution and/or localization of actin-regulatory and adhesion proteins at the cell-cell interface necessary to maintain BTB integrity. Second, PFOS was found to perturb inter-Sertoli cell gap junction (GJ) communication based on a dye-transfer assay by down-regulating the expression of connexin-43, a GJ integral membrane protein. Third, phosphorylated focal adhesion kinase (FAK)-Tyr407 was found to protect the BTB from the destructive effects of PFOS as shown in a study via an overexpression of an FAK Y407E phosphomimetic mutant. Also, transfection of Sertoli cells with an FAK-specific microRNA, miR-135b, to knock down the expression of phosphorylated FAK-Tyr407 was found to worsen PFOS-mediated Sertoli cell tight junction disruption. In summary, PFOS-induced BTB disruption is mediated by down-regulating phosphorylated FAK-Tyr407 and connexin-43, which in turn perturbed F-actin organization and GJ-based intercellular communication, leading to mislocalization of actin-regulatory and adhesion proteins at the BTB.

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