An increase in polyadenylation of histone isoforms, Hist1h2ah and Hist2h3c2, is governed by 3′-UTR in de-differentiated and undifferentiated hepatocyte
Replication-dependent histones have a stem-loop structure at the 3′ end of messenger RNA (mRNA) and are stabilized by stem-loop binding protein (SLBP). Moreover, loss of SLBP and imbalance in the level of ARE (adenylate-uridylate-rich elements)-binding proteins, HuR, and BRF1 are associated with the...
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| Veröffentlicht in: | Experimental biology and medicine (Maywood, N.J.) N.J.), 2023-06, Vol.248 (11), p.948-958 |
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| creator | Verma, Tripti Natu, Abhiram Khade, Bharat Gera, Poonam Gupta, Sanjay |
| description | Replication-dependent histones have a stem-loop structure at the 3′ end of messenger RNA (mRNA) and are stabilized by stem-loop binding protein (SLBP). Moreover, loss of SLBP and imbalance in the level of ARE (adenylate-uridylate-rich elements)-binding proteins, HuR, and BRF1 are associated with the polyadenylation of canonical histone mRNAs under different physiological conditions. Previous studies from the lab have shown increased protein levels of H2A1H and H3.2 in N-nitrosodiethylamine (NDEA)-induced hepatocellular carcinoma (HCC). In this study, we report that increase in the polyadenylation of histone mRNA contributes to increased levels of H2A1H and H3.2 in NDEA-induced HCC. The persistent exposure to carcinogen with polyadenylation of histone mRNA increases the total histone pool resulting in aneuploidy. The embryonic liver has also shown increased polyadenylated histone isoforms, Hist1h2ah and Hist2h3c2, primarily contributing to their increased protein levels. The increase in polyadenylation of histone mRNA in HCC and e15 are in coherence with the decrease in SLBP and BRF1 with an increase in HuR. Our studies in neoplastic CL38 cell line showed that direct stress on the cells induces downregulation of SLBP with enhanced histone isoform polyadenylation. Moreover, the polyadenylation is related to increase in activated MAP kinases, p38, ERK, and JNK in HCC liver tumor tissues and CL38 cells treated with arsenic. Our data suggest that SLBP degrades under stress, destabilizing the stem-loop, elongating histone isoforms mRNA with 3′ polyadenylated tail with increase of HuR and decrease of BRF1. Overall, our results indicate that SLBP may play an essential part in cell proliferation, at least in persistent exposure to stress, by mediating the stabilization of histone isoforms throughout the cell cycle. |
| doi_str_mv | 10.1177/15353702231160328 |
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Moreover, loss of SLBP and imbalance in the level of ARE (adenylate-uridylate-rich elements)-binding proteins, HuR, and BRF1 are associated with the polyadenylation of canonical histone mRNAs under different physiological conditions. Previous studies from the lab have shown increased protein levels of H2A1H and H3.2 in N-nitrosodiethylamine (NDEA)-induced hepatocellular carcinoma (HCC). In this study, we report that increase in the polyadenylation of histone mRNA contributes to increased levels of H2A1H and H3.2 in NDEA-induced HCC. The persistent exposure to carcinogen with polyadenylation of histone mRNA increases the total histone pool resulting in aneuploidy. The embryonic liver has also shown increased polyadenylated histone isoforms, Hist1h2ah and Hist2h3c2, primarily contributing to their increased protein levels. The increase in polyadenylation of histone mRNA in HCC and e15 are in coherence with the decrease in SLBP and BRF1 with an increase in HuR. Our studies in neoplastic CL38 cell line showed that direct stress on the cells induces downregulation of SLBP with enhanced histone isoform polyadenylation. Moreover, the polyadenylation is related to increase in activated MAP kinases, p38, ERK, and JNK in HCC liver tumor tissues and CL38 cells treated with arsenic. Our data suggest that SLBP degrades under stress, destabilizing the stem-loop, elongating histone isoforms mRNA with 3′ polyadenylated tail with increase of HuR and decrease of BRF1. 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Moreover, loss of SLBP and imbalance in the level of ARE (adenylate-uridylate-rich elements)-binding proteins, HuR, and BRF1 are associated with the polyadenylation of canonical histone mRNAs under different physiological conditions. Previous studies from the lab have shown increased protein levels of H2A1H and H3.2 in N-nitrosodiethylamine (NDEA)-induced hepatocellular carcinoma (HCC). In this study, we report that increase in the polyadenylation of histone mRNA contributes to increased levels of H2A1H and H3.2 in NDEA-induced HCC. The persistent exposure to carcinogen with polyadenylation of histone mRNA increases the total histone pool resulting in aneuploidy. The embryonic liver has also shown increased polyadenylated histone isoforms, Hist1h2ah and Hist2h3c2, primarily contributing to their increased protein levels. The increase in polyadenylation of histone mRNA in HCC and e15 are in coherence with the decrease in SLBP and BRF1 with an increase in HuR. Our studies in neoplastic CL38 cell line showed that direct stress on the cells induces downregulation of SLBP with enhanced histone isoform polyadenylation. Moreover, the polyadenylation is related to increase in activated MAP kinases, p38, ERK, and JNK in HCC liver tumor tissues and CL38 cells treated with arsenic. Our data suggest that SLBP degrades under stress, destabilizing the stem-loop, elongating histone isoforms mRNA with 3′ polyadenylated tail with increase of HuR and decrease of BRF1. 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Our studies in neoplastic CL38 cell line showed that direct stress on the cells induces downregulation of SLBP with enhanced histone isoform polyadenylation. Moreover, the polyadenylation is related to increase in activated MAP kinases, p38, ERK, and JNK in HCC liver tumor tissues and CL38 cells treated with arsenic. Our data suggest that SLBP degrades under stress, destabilizing the stem-loop, elongating histone isoforms mRNA with 3′ polyadenylated tail with increase of HuR and decrease of BRF1. Overall, our results indicate that SLBP may play an essential part in cell proliferation, at least in persistent exposure to stress, by mediating the stabilization of histone isoforms throughout the cell cycle.</abstract><cop>London, England</cop><pub>SAGE Publications</pub><pmid>37021545</pmid><doi>10.1177/15353702231160328</doi><tpages>11</tpages><orcidid>https://orcid.org/0000-0002-1209-189X</orcidid><oa>free_for_read</oa></addata></record> |
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| title | An increase in polyadenylation of histone isoforms, Hist1h2ah and Hist2h3c2, is governed by 3′-UTR in de-differentiated and undifferentiated hepatocyte |
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