Acetylation of histones of rat testis.

When [1-¹⁴C]acetate was injected into rats intratesticularly in the presence of cycloheximide to inhibit protein synthesis, the label was incorporated into histone fractions F2a1 and F3 and into non-histone chromosomal proteins of each of the following stages of spermatogenesis: spermatogonia-preleptotene spermatocytes, leptotene-zygotene-pachytene-diplotene primary spermatocytes, and spermatids. Acetylation of histones was particularly active in the spermatid stages. There was no significant incorporation of acetate into the lysine-rich histone fractions F1 and X₁.In early periods of in vivo incorporation of [³H]amino acids into histones the acetylated histone F2a1 fractions had higher specific activities than the main band of F2a1, but with the passage of time the label moved into the principal band to the extent that specific activities in the acetylated and principal bands were approximately equal at 6 days. However, at 24–36 days the specific activities were again higher in the acetylated bands than in the principal band of F2a1. These data support the conclusions of Candido, Louie, and Dixon, from experiments with trout testis, that acetylation of histone F2a1 may be important in the process of combination of this protein with DNA in chromatin at the spermatogonia-primary spermatocyte stage and also in the subsequent removal of this histone for replacement by protamines at the spermatid stage.[³H]Amino acids were incorporated into histone fractions X₁ and F1 at approximately equal rates, and there was no evidence that one of these fractions was a precursor of the other.Chromatin of the seminiferous epithelial cells of rat testis has a firmly bound acetylase which catalyzes the in vitro acetylation of histones F3 and F2a1 by acetyl CoA.     

Effects of cordycepin,hydroxyurea and cycloheximide on histone mRNA synthesis in synchronized HeLa cells

The effects of cordycepin, hydroxyurea and cycloheximide on the synthesis of histone mRNA in synchronized HeLa cells were studied by quantitating the RNA, using translation in a rabbit reticulocyte cell-free system. It was found that biologically active histone mRNA is synthesized in the presence of cordycepin. This result strengthens the findings by others that histone mRNA does not contain poly(A). Hydroxyurea and cycloheximide, when used at concentrations that inhibit cellular DNA synthesis, had different effects on histone messenger activity. While polyribosomal messenger activity rapidly declined after addition of hydroxyurea it was not impaired by cycloheximide. These results might help to elucidate regulatory mechanisms involved in the coupled synthesis of DNA and histones in HeLa cells.     

Histone acetylation during meiosis in Lilium microsporocytes

Acetate incorporation into histones of Lilium microsporocytes is consistently higher in early prophase of meiosis than in later stages. The pattern of acetate incorporation into histones differs from that found for the soluble nuclear proteins. Evidence is presented that acetate incorporation reflects true acetylation, not histone synthesis. e-N-acetyllysine (eNAcLys) was released from histones by enzymatic digestion. Amino acid analysis of the digests confirm the presence of significantly higher amounts of eNAcLys in early meiotic stages. These results are consistent with the hypothesis that modulation of histone charge plays a role in the binding of histones to DNA and/or chromosome condensation. In vitro levels of histone acetylating activity remain constant throughout meiosis. The results suggest that microsporocyte histone deacetylase activity increases through meiotic prophase.     

Age-related effects on the incorporation of acetate into rat liver histones

Incorporation of sodium [³H]acetate into histones of rats was examined as a function of age. Incorporation was observed to decline with age up to 24 months, at which time a levelling occurred. Controls indicated that this decrease in histone acetylation could not be attributed to variability in isotope delivery to the liver or to alterations in intracellular ‘pools’ available for acetylation. Polyacrylamide gel electrophoresis established that, in all cases, acetate was incorporated primarily into histone fractions H3 and H4 and the pattern of incorporation exhibited age-dependent phenomena. H4 was predominantly labelled in 2 month animals, while in 12, 16 and 24 month animals H3 was more highly labelled; at 27 months the two fractions were labelled equally.Assessment of histone acetylase and deacetylase activities indicates that deacetylase activity increased with age.     

Histones and histone acetylation during the embryonic development of Drosophila hydei

Histones and histone acetylation have been investigated during three stages of Drosophila hydei embryogenesis--early gastrula, late gastrula and organogenesis. No essential changes in the electrophoretic pattern of the histones have been revealed during the stages examined. However, we established an enhanced level of [14C]acetate incorporation at the time of extensive gene activation during gastrulation as well as some quantitative differences in the pattern of acetylation during gastrula and organogenesis. We consider most of them to be related to chromatin assembly during the stage of gastrulation and suggest that the correlation between histone acetylation and gene activity during Drosophila embryogenesis concerns histone H3 acetylation. The involvement of both acetylation and deacetylation in the steady-state acetylation level has been examined as well. We have found that the higher acetyltransferase activity is responsible for the enhanced level of acetate incorporation during gastrulation.     

Action of Miracil D and related compounds on histone synthesis and phosphorylation in regenerating liver

The effect of Miracil D and hycanthone on ³H-amino acid incorporation into histones was studied under conditions known to cause a greater than 90% inhibition of thymidine incorporation into DNA of regenerating rat liver. A dose level of 50 mg of either drug per kg body weight administered 8 h after partial hepatectomy caused an approximate 50% inhibition of amino acid incorporation into fl, f2b and combined f2a plus f3 histone in 24-h regenerating liver. There was little or no effect on amino acid nitrogen concentration or incorporation of ³H-amino acid into the acid-soluble fraction, cytoplasmic proteins or acid-insoluble nuclear proteins. Under the same conditions, Miracil D caused a 65% inhibition of ³²P incorporation into lysirierich f1 histone whereas a structurally related compound, GE-99, did not have a significant inhibitory effect on this parameter nor on [³H]thymidine incorporation into DNA. Temporal studies with hycanthone revealed a suppression of the increased phosphorylation of fl histone in regenerating rat liver without influencing the phosphorylation of other histones. The data support the concept of coordinated control of DNA synthesis and phosphorylation of fl histone.     

Turnover of chromatin proteins in rat liver during induction of RNA synthesis by electrostimulation of the hypothalamus

It has been shown that the induction of D-RNA synthesis in rat liver nuclei by electrostimulation of hypothalamus is accompanied by a decrease in chromatin protein synthesis and an increase in phosphorylation and acetylation of chromatin proteins. The decrease of the histone synthesis is mainly due to the decrease of [14C]lysine and [14C]alanine incorporation into histones H1 and H4. The relationship between H1, H2b-H3, H2a and H4 histone fractions remains unchanged. Electrostimulation of hypothalamus increases acetylation of H2a and H4 histone fractions and phosphorylation of all histones with the exception of histone H1.     

Contribution of maternal mRNA for maintenance of Ca2+-dependent reaggregating activity in dissociated cells of Xenopus laevis embryos

Dissociated Xenopus laevis blastula cells, where reaggregation was inhibited in Ca2+-free medium, reaggregated immediately after the addition of Ca2+. This reaggregation was not inhibited by cordycepin or actinomycin D treatment during culture, although cycloheximide and puromycin were inhibitory. The reaggregation was not inhibited even when fertilized eggs were microinjected with cordycepin and their RNA synthesis was continuously inhibited through cleavage to blastula stages. In neurula cells, cordycepin treatment induced significant reduction in sizes of aggregates formed. These results suggest that the Ca2+-dependent reaggregating activity of blastula cells is maintained by the translation of maternal, rather than newly synthesized, mRNA.