|
|
|
| Basic information |
|
| Name |
Saito Fumiyo |
| Belonging department |
|
| Occupation name |
|
| researchmap researcher code |
B000357497 |
| researchmap agency |
Okayama University of Science |
Zou X, Watanabe Y, Ozawa S, Ebizuka Y, Shobudani M, Sakamaki Y, Kigata T, Jin M, Saito F, Akahori Y, Yamashita S, Shibutani M.
|
 |
N-methyl-N-nitrosourea (MNU) exposure impairs hippocampal neurogenesis in rats. The present study investigated the gene expression profiles that were commonly up or downregulated across different brain substructures in response to repeated MNU administration in rats. Five-week-old rats were orally administered MNU at 0, 5, 15 mg/kg body weight/day for 28 days and subjected to gene expression microarray analysis in the hippocampal dentate gyrus, corpus callosum, cerebral cortex and cerebellar vermis. MNU at 15 mg/kg revealed multiple functional clusters of upregulated genes related to immune and inflammatory responses in all brain regions, and also clusters of up or downregulated genes related to regulation of apoptotic process in several regions. Specifically, the upregulated genes commonly found in all four regions were enriched in clusters of "immune response" and/or "inflammatory response" (Cd74, Ccl3, Fcgr3a, Serping1, Lgals3, Fcgr2b, Hcst, Kcnn4, Tnf, Gpr18, Tyrobp and Cyba) and "metal-binding proteins" (Mt1, Mt2A and Apobec1). Meanwhile, downregulated genes common to all four regions (Bmp4, Vcan and Fhit) were included in clusters of "cell proliferation", "glial cell migration" and "nucleotide metabolism". Immunohistochemical analysis of representative gene products revealed that in all brain regions examined, MNU treatment increased metallothionein-I/II + cells and galectin-3+ cells co-expressing Iba1, and also increased Iba1+ and CD68+ cells. These results suggest that repeated MNU administration in rats causes neuroinflammation and oxidative stress accompanied by apoptosis of neural cell components in the brain, as well as concurrent anti-inflammatory responses for neuroprotection from MNU exposure, involving activation of microglia producing metallothionein-I/II and galectin-3 on these responses.
The Journal of Toxicological Sciences
|
