Lev M. Fedorov scite author profile

Background & Aims The ratio of liver size to body weight (hepatostat) is tightly controlled, but little is known about how the physiologic functions of the liver help determine its size. Livers of mice repopulated with human hepatocytes (humanized livers) grow to larger than normal; the human hepatocytes do not recognize fibroblast growth factor-15 (FGF15) produced by mouse intestine. This results in upregulation of bile acid synthesis in the human hepatocytes and enlargement of the bile acid pool. We investigated whether abnormal bile acid signaling affects the hepatostat in mice. Methods We crossed Fah−/−, Rag2−/−, Il2r−/− mice with NOD mice to create FRGN mice, whose livers can be fully repopulated with human hepatocytes. We inserted the gene for human FGF19 (ortholog to mouse Fgf15), including regulatory sequences, into the FRGN mice to create FRGN19+ mice. Livers of FRGN19+ mice and their FRGN littermates were fully repopulated with human hepatocytes. Liver tissues were collected and bile acid pool sizes and RNA sequences were analyzed and compared with those of mice without humanized livers (controls). Results Livers were larger in FRGN mice with humanized livers (13% of body weight), compared to control FRGN mice; they also had much larger bile acid pools and aberrant bile acid signaling. Livers from FRGN19+ normalized to 7.8% of body weight, and their bile acid pool and signaling more closely resembled that of control FRGN19+ mice. RNA sequence analysis showed activation of the Hippo pathway, and immunohistochemical and transcription analyses revealed increased hepatocyte proliferation, but not apoptosis, in the enlarged humanized livers of FRGN mice. Cell sorting experiments showed that although healthy human liver does not produce FGF19, non-parenchymal cells from cholestatic livers produce FGF19. Conclusions In mice with humanized livers, expression of an FGF19 transgene corrects bile acid signaling defects, resulting in normalization of bile acid synthesis, the bile acid pool, and liver size. These findings indicate that liver size is, in part, regulated by the size of the bile acid pool that the liver must circulate.

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The deubiquitinase USP36 promotes snoRNP group SUMOylation and is essential for ribosome biogenesis

Ryu

Sun

Chen

et al. 2021

EMBO Reports

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SUMOylation plays a crucial role in regulating diverse cellular processes including ribosome biogenesis. Proteomic analyses and experimental evidence showed that a number of nucleolar proteins involved in ribosome biogenesis are modified by SUMO. However, how these proteins are SUMOylated in cells is less understood. Here, we report that USP36, a nucleolar deubiquitinating enzyme (DUB), promotes nucleolar SUMOylation. Overexpression of USP36 enhances nucleolar SUMOylation, whereas its knockdown or genetic deletion reduces the levels of SUMOylation. USP36 interacts with SUMO2 and Ubc9 and directly mediates SUMOylation in cells and in vitro. We show that USP36 promotes the SUMOylation of the small nucleolar ribonucleoprotein (snoRNP) components Nop58 and Nhp2 in cells and in vitro and their binding to snoRNAs. It also promotes the SUMOylation of snoRNP components Nop56 and DKC1. Functionally, we show that knockdown of USP36 markedly impairs rRNA processing and translation. Thus, USP36 promotes snoRNP group SUMOylation and is critical for ribosome biogenesis and protein translation.

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Measles virus-induced immunosuppression in vitro is associated with deregulation of G1 cell cycle control proteins.

Engelking

Fedorov

Lilischkis

et al. 1999

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Virus-induced immunosuppression is the major cause of the high morbidity/mortality rates associated with acute measles. It has been shown previously that mitogen-dependent proliferation of peripheral blood lymphocytes (PBL) was strongly impaired after contact with the measles virus (MV) glycoproteins F and H expressed on the surface of infected cells, cells transfected with the corresponding expression constructs or UV-inactivated MV (UV-MV). The state of unresponsiveness was not associated with the induction of apoptosis, and a significant proportion of PBL was found to be arrested in the G 0 /G 1 phase of the cell cycle. It is now shown that cell cycle cessation, rather than complete arrest, is induced after MV glycoprotein contact. No obvious role was found for p53 in the induction of this unresponsiveness. With UV-MV as effector, downregulation of p27, an inhibitor of cyclin-dependent kinase (CDK)-cyclin complexes, was significantly delayed after mitogenic stimulation of human PBL. The activities of both CDK4/6-cyclin D and CDK2-cyclin E complexes for phosphorylation of exogenous substrates in vitro were strongly reduced. CDK4, CDK6, cyclins D3 and E and, to a minor extent, CDK2 failed to accumulate at the protein level after mitogenic stimulation in the presence of UV-MV. These data indicate that MV-induced proliferative unresponsiveness of PBL to mitogenic stimulation is associated with a drastic deregulation of the expression of cell cycle genes essential for the G 1 /S phase transition.

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Lack of β-catenin affects mouse development at gastrulation

et al. 1995

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Molecular analysis of the cadherin-catenin complex elucidated the central role of beta-catenin in this adhesion complex, as it binds to the cytoplasmic domain of E-cadherin and to alpha-catenin. beta-Catenin may also function in signalling pathways, given its homology to the gene product of the Drosophila segment polarity gene armadillo, which is known to be involved in the wingless signalling cascade. To study the function of beta-catenin during mouse development, gene knock-out experiments were performed in embryonic stem cells and transgenic mice were generated. beta-Catenin null-mutant embryos formed blastocysts, implanted and developed into egg-cylinder-stage embryos. At day 7 post coitum, the development of the embryonic ectoderm was affected in mutant embryos. Cells detached from the ectodermal cell layer and were dispersed into the proamniotic cavity. No mesoderm formation was observed in mutant embryos. The development of extraembryonic structures appeared less dramatically or not at all affected. Our results demonstrate that, although beta-catenin is expressed rather ubiquitously, it is specifically required in the ectodermal cell layer.

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Taar1 gene variants have a causal role in methamphetamine intake and response and interact with Oprm1

Stafford

Reed

Baba

et al. 2019

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We identified a locus on mouse chromosome 10 that accounts for 60% of the genetic variance in methamphetamine intake in mice selectively bred for high versus low methamphetamine consumption. We nominated the trace amine-associated receptor 1 gene, Taar1, as the strongest candidate and identified regulation of the mu-opioid receptor 1 gene, Oprm1, as another contributor. This study exploited CRISPR-Cas9 to test the causal role of Taar1 in methamphetamine intake and a genetically-associated thermal response to methamphetamine. The methamphetamine-related traits were rescued, converting them to levels found in methamphetamine-avoiding animals. We used a family of recombinant inbred mouse strains for interval mapping and to examine independent and epistatic effects of Taar1 and Oprm1. Both methamphetamine intake and the thermal response mapped to Taar1 and the independent effect of Taar1 was dependent on genotype at Oprm1. Our findings encourage investigation of the contribution of Taar1 and Oprm1 variants to human methamphetamine addiction.

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Lev M. Fedorov

Fibroblast Growth Factor Signaling Controls Liver Size in Mice With Humanized Livers

The deubiquitinase USP36 promotes snoRNP group SUMOylation and is essential for ribosome biogenesis

Measles virus-induced immunosuppression in vitro is associated with deregulation of G1 cell cycle control proteins.

Lack of β-catenin affects mouse development at gastrulation

Taar1 gene variants have a causal role in methamphetamine intake and response and interact with Oprm1

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