Publication: Microtubule-associated proteins (MAPs) in microtubule
cytoskeletal dynamics and spermatogenesis
Authors
Wang, Lingling ; Yan, Ming ; Wong, Chris K.C. ; Ge, Renshan ; Wu, Xiaolong ; Sun, Fei ; Yan Cheng, C.
item.page.secondaryauthor
item.page.director
Publisher
Universidad de Murcia, Departamento de Biologia Celular e Histiologia
publication.page.editor
publication.page.department
DOI
https://doi.org/10.14670/HH-18-279
item.page.type
info:eu-repo/semantics/article
Description
Abstract
The microtubule (MT) cytoskeleton in
Sertoli cells, a crucial cellular structure in the
seminiferous epithelium of adult mammalian testes that
supports spermatogenesis, was studied morphologically
decades ago. However, its biology, in particular the
involving regulatory biomolecules and the underlying
mechanism(s) in modulating MT dynamics, are only
beginning to be revealed in recent years. This lack of
studies in delineating the biology of MT cytoskeletal
dynamics undermines other studies in the field, in
particular the plausible therapeutic treatment and
management of male infertility and fertility since studies
have shown that the MT cytoskeleton is one of the prime
targets of toxicants. Interestingly, much of the
information regarding the function of actin-, MT- and
intermediate filament-based cytoskeletons come from
studies using toxicant models including some genetic
models. During the past several years, there have been
some advances in studying the biology of MT
cytoskeleton in the testis, and many of these studies were
based on the use of pharmaceutical/toxicant models. In
this review, we summarize the results of these findings,
illustrating the importance of toxicant/pharmaceutical
models in unravelling the biology of MT dynamics, in
particular the role of microtubule-associated proteins
(MAPs), a family of regulatory proteins that modulate
MT dynamics but also actin- and intermediate filamentbased cytoskeletons. We also provide a timely
hypothetical model which can serve as a guide to design
functional experiments to study how the MT
cytoskeleton is regulated during spermatogenesis
through the use of toxicants and/or pharmaceutical
agents.
publication.page.subject
Testis , Spermatogenesis , Microtubules , MAPs , MARKs , +TIPs , -TIPS , Motor proteins , Dynein 1 , EB1 , CAMSAP2
Citation
Histology and Histopathology Vol. 36, nº3 (2021)
item.page.embargo
Ir a EstadÃsticas
Este Ãtem está sujeto a una licencia Creative Commons. http://creativecommons.org/licenses/by-nc-nd/4.0/