The autoimmune regulator (AIRE) gene is a gene responsible for autoimmune polyendocrinopathy‐candidiasis‐ectodermal dystrophy. Here we show that AIRE is expressed in human peripheral CD4‐positive T‐cells, and most highly in antigen‐ and interleukin 2‐stimulated T (IL‐2T) cells. Mitogen‐activated protein kinases (MAPKs), including MAPK kinase (MEK) 1/2 and p38 MAPK, were phosphorylated in IL‐2T cells and the expression of the AIRE gene was inhibited by a specific p38 MAPK inhibitor (SB203580), thereby indicating that AIRE gene expression is controlled by the MAPK pathway in IL‐2T cells. These data suggested the possible significance of the AIRE gene in the peripheral immune system.
We report a lethal phenotype of mouse embryo with a disruption in the gene encoding p116, a subunit of the translation initiation factor, eIF3. The amino acid sequence of mouse p116, as deduced from the cDNA, shows high homology (97%) with human p116, and contains the conserved RNA binding sites, RNP1 and RNP2. The p116 mRNA is ubiquitously expressed in various organs, suggesting a house-keeping function of the p116 protein. To obtain genetic evidence for the essential role of the p116 protein in mouse cells, we constructed mice with a disruption in the p116 gene. Heterozygous p116(+/-) mice were intercrossed, and the genotypes of the offspring were determined. The results indicated no p116(-/-) pups among 84 neonates. Also, there were no p116(-/-) embryos 13.5 days postcoitum (d.p.c.). Among 77 embryos, there was only one p116(-/-) embryo at the blastocyst stage (3.5 d.p.c.). These results indicate that p116 plays an essential role in the early stages of mouse development.
With islet transplantation having grown in popularity since the introduction of the Edmonton protocol, how to secure an unlimited source of islets has become an urgent problem. To resolve this problem, techniques to induce or proliferate islets are urgently required. To achieve this goal, gene expression analysis using a cDNA microarray in islets of partially pancreatectomized mice, in which the remaining islets regenerate and proliferate with insulin secretion and glucose responsiveness, provides us with valuable information. However, those experiments have two critical problems: first, how to selectively collect the regenerating or proliferating islets, and second, the shortage of total RNA extracted from one islet for a microarray analysis. A useful system was thus designed which combined laser microdissection, cDNA amplification by SMART PCR, which can maintain the relative expression profile of transcripts throughout reactions, and a cDNA microarray. Furthermore, this system is expected to contribute to future studies regarding not only islet regeneration but also the function of the islet itself, and this system may also be applicable to many other types of endocrine tissue. In this review, the details of this system are presented and discussed.
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