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Disorganization of actin bundles of ectoplasmic specialization
Author(s) -
Sakai Yasuhiro,
Yamashina Shohei
Publication year - 1995
Publication title -
development, growth and differentiation
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 0.864
H-Index - 66
eISSN - 1440-169X
pISSN - 0012-1592
DOI - 10.1046/j.1440-169x.1995.00003.x
Subject(s) - phalloidin , spermatid , actin , biophysics , microbiology and biotechnology , endoplasmic reticulum , sertoli cell , fluorescence microscope , ultrastructure , electron microscope , biology , fluorescence , chemistry , anatomy , cytoskeleton , cell , biochemistry , spermatogenesis , optics , physics , endocrinology
The degradation of ectoplasmic specialization consisting of bundles of actin sandwiched between the plasma membrane and endoplasmic reticulum of the Sertoli cell, occurs just before spermiation. For elucidation of the processes involved in this degradation, changes in fibrous actin of the rat testis were analyzed using BODIPY‐phalloidin by fluorescence and electron microscopy. Before step 17, the fluorescence of BODIPY‐phalloidin was evenly distributed around the spermatid head. When the spermatids became positioned at the luminal surface, the fluorescence had condensed on the concave side of the spermatid head. At step 19, lines of fluorescence distributed at regular intervals projected at right angles from the head. Ultrastructural observation showed that the tubulobulbar complex was formed at step 19 and electron‐dense material accumulated around thin tubules of the tubulobulbar complex. Immunohistochemical examination of BODIPY‐phalloidin showed that the electron dense materials around the thin tubules of the tubulobulbar complex had the capacity to bind to phallotoxin. Therefore the pattern of fluorescence in the spermatid at step 19 corresponds to that of the tubulobulbar complex. Actin bundles of the ectoplasmic specialization would thus appear to de‐polymerize into actin monomers via electron dense materials around the thin tubules of the tubulobulbar complex. The tubulobulbar complex may contribute to the disorganization of actin bundles.

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