Jonathan A. Rhim scite author profile

Adult liver has the unusual ability to fully regenerate after injury. Although regeneration is accomplished by the division of mature hepatocytes, the replicative potential of these cells is unknown. Here, the replicative capacity of adult liver cells and their medical usefulness as donor cells for transplantation were investigated by transfer of adult mouse liver cells into transgenic mice that display an endogenous defect in hepatic growth potential and function. The transplanted liver cell populations replaced up to 80 percent of the diseased recipient liver. These findings demonstrate the enormous growth potential of adult hepatocytes, indicating the feasibility of liver cell transplantation as a method to replace lost or diseased hepatic parenchyma.

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Impaired Preneoplastic Changes and Liver Tumor Formation in Tumor Necrosis Factor Receptor Type 1 Knockout Mice

Knight

Yeoh²,

Husk

et al. 2000

277

245

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Hepatic stem cells (oval cells) proliferate within the liver after exposure to a variety of hepatic carcinogens and can generate both hepatocytes and bile duct cells. Oval cell proliferation is commonly seen in the preneoplastic stages of liver carcinogenesis, often accompanied by an inflammatory response. Tumor necrosis factor (TNF), an inflammatory cytokine, is also important in liver regeneration and hepatocellular growth. The experiments reported here explore the relationship among the TNF inflammatory pathway, liver stem cell activation, and tumorigenesis. We demonstrate that TNF is upregulated during oval cell proliferation induced by a choline-deficient, ethionine-supplemented diet and that it is expressed by oval cells. In TNF receptor type 1 knockout mice, oval cell proliferation is substantially impaired and tumorigenesis is reduced. Oval cell proliferation is impaired to a lesser extent in interleukin 6 knockout mice and is unchanged in TNF receptor type 2 knockout mice. These findings demonstrate that TNF signaling participates in the proliferation of oval cells during the preneoplastic phase of liver carcinogenesis and that loss of signaling through the TNF receptor type 1 reduces the incidence of tumor formation. The TNF inflammatory pathway may be a target for therapeutic intervention during the early stages of liver carcinogenesis.

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Complete reconstitution of mouse liver with xenogeneic hepatocytes.

Rhim

Sandgren

Palmiter

et al. 1995

Proc. Natl. Acad. Sci. U.S.A.

206

132

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We have developed a system for studying hepatocellular growth potential in which liver cells are introduced into the diseased livers of albumin-urokinase (AlbuPA) transgenic mice. To use this system to study xenogeneic cell transplantation, rat liver cells were introduced into immunotolerant Alb-uPA transgenic mice. In regenerated recipient livers, up to 100%'o of hepatocellular gene expression was of rat origin, demonstrating the creation of a functional mouse liver in which parenchyma is derived from xenogeneic (rat) hepatocytes. Immunotolerant Alb-uPA transgenic mice provide a tool for studying hepatocellular biology of any species, including humans, in a controlled experimental setting.

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Expression of an Avian Protamine in Transgenic Mice Disrupts Chromatin Structure in Spermatozoa1

Rhim

Connor

Dixon

et al. 1995

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The objective of this study was to determine the consequences of disrupting spermatozoal chromatin condensation on spermatozoal development and function. The avian protamine, galline, was targeted to spermatids of transgenic mice using the mouse protamine 1 gene promoter. Three transgenic mouse lines were established that expressed galline mRNA at 65%, 120%, and 185% of the level found in rooster testis. Galline mRNA accumulated in round spermatids to levels similar to that of mouse protamine and, as with the mammalian counterpart, translation was delayed until the elongating spermatid stage. Protein gels revealed that galline accumulated in mature spermatozoa whereas mouse protamines were reduced, suggesting that galline competes with protamines for binding to spermatozoal DNA. Acridine orange binding analysis indicated that DNA of the transgenic spermatozoa was not as tightly packed as that of controls. This was corroborated by electron microscopy, which revealed disruption of the normal dense chromatin structure of spermatozoal heads. Despite these perturbations of chromatin condensation, the transgenic spermatozoa were functionally normal, as the majority of transgenic mice had normal fertility. However, in mice that expressed excessive galline, there was a gradual destruction of seminiferous tubules leading to infertility. Our findings suggest that very precise packaging of DNA in germ cells may not be essential for subsequent unpackaging in the pronucleus of fertilized eggs and for subsequent normal development of the embryo.

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Pigmented Plaque on the Right Buttock: Answer

Stetsenko

Compton

Newman

et al. 2010

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Jonathan A. Rhim

Replacement of Diseased Mouse Liver by Hepatic Cell Transplantation

Impaired Preneoplastic Changes and Liver Tumor Formation in Tumor Necrosis Factor Receptor Type 1 Knockout Mice

Complete reconstitution of mouse liver with xenogeneic hepatocytes.

Expression of an Avian Protamine in Transgenic Mice Disrupts Chromatin Structure in Spermatozoa1

Pigmented Plaque on the Right Buttock: Answer

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