Junji Kakuchi

Gene Targeting in Mice Reveals a Requirement for Angiotensin in the Development and Maintenance of Kidney Morphology and Growth Factor Regulation

Elevated levels of endogenous angiotensin can cause hypertensive nephrosclerosis as a result of the potent vasopressor action of the peptide. We have produced by gene targeting mice homozygous for a null mutation in the angiotensinogen gene (Atg-1-). Postnatally, Atg-1- animals show a modest delay in glomerular maturation. Although Atg-1- animals are hypotensive by 7 wk of age, they develop, by 3 wk of age, pronounced lesions in the renal cortex, similar to those of hypertensive nephrosclerosis. In addition, the papillae of homozygous mutant kidneys are reduced in size. These lesions are accompanied by local up-regulation of PDGF-B and TGF-beta1 mRNA in the cortex and down-regulation of PDGF-A mRNA in the papilla. The study demonstrates an important requirement for angiotensin in achieving and maintaining the normal morphology of the kidney. The mechanism through which angiotensin maintains the volume homeostasis in mammals includes promotion of the maturational growth of the papilla.

Analysis of the evolution of angiotensin II type 1 receptor gene in mammals (mouse, rat, bovine and human)

The nucleotide and amino acid sequences for mouse angiotensin II (AII) type 1A and 1B receptors were deduced from their complementary and genomic DNAs. Evolutionary analyses based on the nucleotide sequences of the coding region of AII type 1 receptor genes indicated that the duplication event of the type 1 gene occurred 24 +/- 2 million years ago before the divergence between the rat and mouse but after the divergence between rodents and the human/artiodactyls couple. This conclusion was consistent with the results of genomic Southern blot analyses, which revealed that the mouse and rat possess 2 similar but separate genes, whereas the bovine and human have only a single class gene.

A biological response modifier, PSK, inhibits reverse transcriptase in vitro

We found that PSK has an antiviral effect on human immunodeficiency virus (HIV) in vitro. One of the mechanisms of this effect is attributable to the inhibition of binding of HIV with lymphocytes. Here, we found that PSK inhibits reverse transcriptase in a non-competitive way in vitro. Such inhibition may be important in its anti-HIV effect as well as its inhibitory effect on the binding of HIV with lymphocytes.