SummaryActin has been linked to processes spanning the whole gene expression cascade, from regulating specific transcription factors, such as myocardin-related transcription factor, to chromatin remodeling and RNA polymerase function. However, whether actin controls the transcription of only specific genes or has a global role in gene expression has remained elusive. Our genome-wide analysis reveals, for the first time, that actin interacts with essentially all transcribed genes in Drosophila ovaries. Actin co-occupies the majority of gene promoters together with Pol II, and on highly expressed genes, these two proteins also associate with gene bodies. Mechanistically, actin is required for Pol II recruitment to gene bodies, and manipulation of nuclear transport factors for actin leads to the decreased expression of eggshell genes. Collectively, these results uncover a global role for actin in transcription and demonstrate the in vivo importance of balanced nucleocytoplasmic shuttling of actin in the transcriptional control of a developmental process.
In order to assess the effect of arsenic on the male reproductive impairment in mice, 7-week-old animals were exposed to 7.5 mg sodium arsenite (NaAsO(2))/kg body weight, during 35 days (one spermatogenic cycle). One group of animals was sacrificed after exposure, while another group received distilled water for an additional period of 35 days, in order to study the spermatoxic effect and the recovery of spermatogenesis. In mice sacrificed after NaAsO(2) exposure, a decrease in testis/body weight ratio and reduction of tubular diameter were observed. Both groups of NaAsO(2)-exposed animals showed remarkable histopathological changes, such as sloughing of immature germ cells. Animals sacrificed after NaAsO(2) exposure showed decreased sperm motility, increased abnormal sperm morphology and decreased sperm viability. The effects of NaAsO(2) on sperm motility recovered to normal values after one spermatogenic cycle, while increased sperm abnormality was maintained. However, at this period, a decrease in acrosome integrity was detected. Concerning oxidative stress parameters, animals sacrificed after NaAsO(2) exposure showed a decreased selenium-dependent glutathione peroxidase activity, which was not detected after the recovery. Conversely, at this period, total glutathione peroxidase activity increased in exposed animals. These results demonstrate the toxic effects of NaAsO(2) on mice spermatogenesis and show the lack of recovery after one spermatogenic cycle.
Actin influences gene expression at multiple levels. It regulates the activity of specific transcription factors, such as myocardin-related transcription factor (MRTF), is a component of many chromatin remodelers and linked to transcription by all three RNA polymerases (Pol).However, the molecular mechanisms by which actin participates in the gene-specific vs. general transcription have remained unclear. Here we use chromatin immunoprecipitation followed by deep sequencing (ChIP-seq) in Drosophila ovaries to demonstrate that binding of actin to the Act5C gene is not dependent on the Mrtf transcription cofactor. At the genome-wide level, actin interacts with essentially all transcribed genes and co-occupies most gene promoters together with Pol II. On highly expressed genes, actin and Pol II can be found also on the gene bodies.Manipulation of nuclear transport factors for actin leads to decreased expression of egg shell genes, demonstrating the in vivo relevance of balanced nucleo-cytoplasmic shuttling of actin for transcription.
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