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Abstract
Adaptors are component proteins of junctional complexes in
all epithelia, including the seminiferous epithelium of
the mammalian testis. They recruit other regulatory and
structural proteins to the site of both anchoring
junctions [such as cell-cell actin-based adherens
junctions (AJ), e.g. ectoplasmic specialization (ES) and
tubulobulbar complex, both are testis-specific cell-cell
actin-based AJ types, and cell-cell intermediate
filament-based desmosome-like junctions] and tight
junctions (TJ). Furthermore, adaptors per se can be
substrates and/or activators of kinases or phosphatases.
As such, the integrity of cell junctions and the
regulation of junction dynamics during spermatogenesis
rely on adaptors for their ability to recruit and link
different junctional components to the same site and to
tether transmembrane proteins at both anchoring and TJ
sites to the underlying cytoskeletons, such as the actin
filaments, intermediate filaments, and microtubules.
These protein-protein interactions are possible because
adaptors are composed of conserved protein binding
domains, which allow them to link to more than one
structural or signaling proteins, recruiting multi-protein
complexes to the same site. Herein, we provide a timely
review on adaptors recently found at the sites of AJ (e.g.
ES) and TJ. In addition, several in vivo models that can
be used to delineate the function of adaptors in the
testis are described. Additionally, the role of adaptors
in regulating junction dynamics pertinent to
spermatogenesis is discussed.
Key words:
Testis •
Spermatogenesis
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