Yasushi Nakabayashi scite author profile

We previously reported that a low-protein diet caused animals to develop fatty liver containing a high level of triglycerides (TG), similar to the human nutritional disorder “kwashiorkor”. To investigate the underlying mechanisms, we cultured hepatocytes in amino acid-sufficient or deficient medium. Surprisingly, the intracellular TG level was increased by amino acid deficiency without addition of any lipids or hormones, accompanied by enhanced lipid synthesis, indicating that hepatocytes themselves monitored the extracellular amino acid concentrations to induce lipid accumulation in a cell-autonomous manner. We then confirmed that a low-amino acid diet also resulted in the development of fatty liver, and supplementation of the low-amino acid diet with glutamic acid to compensate the loss of nitrogen source did not completely suppress the hepatic TG accumulation. Only a dietary arginine or threonine deficiency was sufficient to induce hepatic TG accumulation. However, supplementation of a low-amino acid diet with arginine or threonine failed to reverse it. In silico analysis succeeded in predicting liver TG level from the serum amino acid profile. Based on these results, we conclude that dietary amino acid composition dynamically affects the serum amino acid profile, which is sensed by hepatocytes and lipid synthesis was activated cell-autonomously, leading to hepatic steatosis.

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The transforming function of bovine papillomavirus DNA.

Nakabayashi¹,

Chattopadhyay²,

Lowy³

1983

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

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When bovine papillomavirus (BPV) or its 7.9-kilobase full viral DNA genome induces focal transformation of mouse cells, the viral DNA is maintained in the transformed cells as multiple episomal copies. This transforming capacity and maintenance of the episomal state previously has been localized to a 69% subgenomic fragment of the viral DNA genome. We now have characterized further the BPV DNA sequences that can encode the transforming function. We first created a series of BPV DNA deletion mutants and correlated the location of the deletions with the capacity of the deleted viral DNAs to induce transformation of mouse cells. The results indicated that two discontinuous segments of the viral DNA were required for transformation. One segment, near the 5' end of the 69% transforming fragment, probably represents a control element of the viral DNA. The second segment, which lies within the 3' end of the 69% fragment, encodes transforming sequences of the viral DNA; ligation of a retroviral control element (the long terminal repeat DNA of Harvey murine sarcoma virus) to the 2.3-kilobase segment at the 3' end of the 69% fragment induces transformation of mouse cells. In contrast to mouse cells transformed by the full-length BPV DNA genome, the cells transformed by the deleted BPV DNA genomes contained few viral DNA copies; at least some copies appeared to be integrated. We conclude that different viral functions mediate cellular transformation and maintain the viral DNA in its episomal state.Papillomaviruses, which are a subgroup of the papovavirus group (1), induce benign epithelial cell proliferations that undergo malignant conversion in certain clinical settings (2-6). Molecular and genetic studies of papillomaviruses have been limited principally because of the lack of a cell culture system suitable for virus propagation. However, bovine papillomaviruses (BPV, types 1 and 2) , which induce fibropapillomas in their natural host (7), can induce nonproductive focal transformation of certain tissue culture cells (8, 9). The infected cells are fully transformed in that they are capable of anchorage-independent growth and form tumors in nude mice. By using a mouse cell focus assay for BPV-induced transformation (9), the capacity of BPV DNA to induce cellular transformation has been localized to a 5.4-kilobase (kb) BamHI/HindIII DNA fragment, which represents 69% of the 7.9-kb full-length viral genome (10).In virions, the papillomavirus DNA genome is a closed circular molecule. Cells transformed by BPV virions, full-length viral DNA, or the 69% transforming fragment contain multiple unintegrated circular episomal copies of the viral DNA in the absence of detectable integrated copies (11). Further analysis has indicated that the transformed cells contain several polyadenylylated viral RNA species (12, 13). The bodies of these RNAs map within the 69% transforming fragment, they vary in size from 1-5 kb, their 3' termini map to a common site about 0.3 kb upstream from the BamHI site, and their 5' ends map towards...

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Clear-cell syringoma

Furue

Hori

Nakabayashi

1984

The American Journal of Dermatopathology

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