Chromatin folding in human spermatozoa. I. Dynamics of chromatin remodelling in differentiating human spermatids

Changes in chromatin structure at different stages of differentiation of human spermatids were studied. It was shown that, in nuclei of early spermatids, chromatin is loosely packed and its structural element is an 8-nm fiber. This “elementary” fiber is predominant at the initial stages of different...

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Published inRussian journal of developmental biology Vol. 43; no. 2; pp. 121 - 130
Main Authors Arifulin, E. A, Bragina, E. E, Zamyatnina, V. A, Volkova, E. G, Sheval’, E. V, Golyshev, S. A, Kintsurashvili, L. N, Kir’yanov, G. I, Prusov, A. N, Polyakov, V. Yu
Format Journal Article
LanguageEnglish
Published Dordrecht Springer-Verlag 01.03.2012
SP MAIK Nauka/Interperiodica
Subjects
Animal Anatomy
Biomedical and Life Sciences
chromatin
Developmental Biology
Gametogenesis
Histology
humans
Life Sciences
Morphology
protamines
spermatids
spermatozoa
protamines
supramolecular organization
histones
DNA
spermiogenesis
chromatin
spermatid
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Summary:Changes in chromatin structure at different stages of differentiation of human spermatids were studied. It was shown that, in nuclei of early spermatids, chromatin is loosely packed and its structural element is an 8-nm fiber. This “elementary” fiber is predominant at the initial stages of differentiation; in the course of maturation, it is replaced by globular elements approximately 60 nm in diameter. In intermediate spermatids, these globules start to condense into fibrillar aggregates and reduce their diameter to 30–40 nm. At all stages of spermatid maturation, except the final stages, these globules are convergence centers for elementary fibers. This remodelling process is vectored and directed from the apical (acrosomal) to the basal pole of the nucleus. In mature spermatids, the elementary 8-nm fibers are almost absent and the major components are 40-nm fibrillar aggregates. The nuclei of mature spermatids are structurally identical with the nuclei of spermatozoa with the so-called “immature chromatin,” which are commonly found in a low proportion in sperm samples from healthy donors and may prevail over the normal cells in spermiogenetic disorders. The cause of this differentiation blockade remains unknown. Possibly, the formation of intermolecular bonds between protamines, which are required for the final stages of chromatin condensation, is blocked in a part of spermatids. The results of this study are discussed in comparison with the known models of nucleoprotamine chromatin organization in human spermatozoa.
Bibliography:http://dx.doi.org/10.1134/S1062360411050031
ISSN:1062-3604
1608-3326
DOI:10.1134/S1062360411050031