Jeffrey H. Albrecht scite author profile

In tissue culture systems, p21 and p27 inhibit cyclindependent kinase (CDK) activity and cell cycle progression in response to numerous stimuli, but little is known about their involvement in cell growth in vivo. We examined the modulation of CDK activity by these proteins after 70% partial hepatectomy (PH), an in vivo model of synchronous hepatocyte cell cycle progression. After PH in BALB/c mice, p21 was induced during the prereplicative (G1) phase and was maximally expressed after peak hepatocyte DNA synthesis. p27 was present in quiescent liver and was minimally induced after PH. p21 and p27 immunoprecipitated with CDK2, CDK4, and cyclin D1 in the regenerating liver. The activity of CDK2-, CDK4-and cyclin D1-associated kinases was upregulated after PH, and maximal activity of these enzyme complexes corresponded to peak DNA synthesis. Immunodepletion experiments suggested that p27 plays a role in downregulating CDK2 activity before and after peak DNA synthesis. Compared to cogenic wild-type mice, p217/7 mice demonstrated evidence of markedly accelerated hepatocyte progression through G1 phase after PH: DNA synthesis, upregulation of cyclin A and PCNA, induction of cyclin D1-and CDK2-associated kinase activity, and appearance of a phosphorylated retinoblastoma protein (Rb) species occurred earlier in the p217/7 mice. These results suggest that p21 and p27 modulate CDK activity in the regenerating liver, and that p21 regulates the rate of progression through G1 phase of the cell cycle in vivo.

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Liver homeostasis is maintained by midlobular zone 2 hepatocytes

Wei

Wang

Jia

et al. 2021

Science

187

181

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The liver is organized into zones in which hepatocytes express different metabolic enzymes. The cells most responsible for liver repopulation and regeneration remain undefined, because fate mapping has only been performed on a few hepatocyte subsets. Here, 14 murine fate-mapping strains were used to systematically compare distinct subsets of hepatocytes. During homeostasis, cells from both periportal zone 1 and pericentral zone 3 contracted in number, whereas cells from midlobular zone 2 expanded in number. Cells within zone 2, which are sheltered from common injuries, also contributed to regeneration after pericentral and periportal injuries. Repopulation from zone 2 was driven by the insulin-like growth factor binding protein 2–mechanistic target of rapamycin–cyclin D1 (IGFBP2-mTOR-CCND1) axis. Therefore, different regions of the lobule exhibit differences in their contribution to hepatocyte turnover, and zone 2 is an important source of new hepatocytes during homeostasis and regeneration.

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Evidence That Cyclin D1 Mediates Both Growth and Proliferation Downstream of TOR in Hepatocytes

Nelsen

Rickheim

Tucker

et al. 2003

Journal of Biological Chemistry

123

134

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Signaling through the target of rapamycin is required for increased protein synthesis, cell growth, and proliferation in response to growth factors. However, the downstream mediators of these responses, and the elements linking growth and proliferation, have not been fully elucidated. Rapamycin inhibits hepatocyte proliferation in culture and liver regeneration in vivo. In cultured rat hepatocytes, rapamycin prevented the up-regulation of cyclin D1 as well as proteins acting downstream in the cell cycle. Transfection with cyclin D1 or E2F2, but not cyclin E or activated Akt, overcame the rapamycin-mediated cell cycle arrest. Rapamycin also inhibited the induction of global protein synthesis after growth factor stimulation, and cyclin D1 overcame this inhibition. Rapamycin inhibited hepatocyte proliferation and cyclin D1 expression in the mouse liver after 70% partial hepatectomy. In rapamycin-treated mice, transfection with cyclin D1 induced hepatocyte proliferation, increased hepatocyte cell size, and promoted growth of the liver. These results suggest that cyclin D1 is a key mediator of increased protein synthesis, cell growth, and proliferation downstream of target of rapamycin in mitogenstimulated hepatocytes.

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