イタノ ナオキ   ITANO NAOKI
  板野 直樹
   所属   京都産業大学  生命科学部 先端生命科学科
   職種   教授
言語種別 英語
発行・発表の年月 2004/04
形態種別 研究論文
査読 査読あり
標題 Selective expression and functional characteristics of three mammalian hyaluronan synthases in oncogenic malignant transformation
執筆形態 その他
掲載誌名 JOURNAL OF BIOLOGICAL CHEMISTRY
出版社・発行元 AMER SOC BIOCHEMISTRY MOLECULAR BIOLOGY INC
巻・号・頁 279(18),pp.18679-18687
著者・共著者 N Itano,T Sawai,F Atsumi,O Miyaishi,S Taniguchi,R Kannagi,M Hamaguchi,K Kimata
概要 Malignant transformation of fibroblasts and epithelial cells is often accompanied by increased hyaluronan production and accumulation. Despite recent progress in the study of hyaluronan biosynthesis, the mechanisms underlying the transformation-induced overproduction of hyaluronan have not been elucidated. Here we report that activity and transcriptional levels of hyaluronan synthase ( HAS) significantly increased after oncogenic malignant transformation of a rat 3Y1 fibroblast cell line. Of three HAS isoforms (HAS1, HAS2, and HAS3), only HAS2 gene expression was increased in the v-Ha-ras transformed 3Y1 cells, which show less malignancy. In contrast, both HAS1 and HAS2 expressions were elevated in the highly malignant cells transformed with v-src and/or v-fos. To assess the contribution of HAS expression to the oncogenic malignant transformation, we established stable cell transfectants expressing sense and antisense HAS genes. Antisense suppression of the HAS2 expression significantly decreased hyaluronan production in the cells transformed by the oncogenic v-Ha-ras and eventually led to a reduction in tumorigenicity in the rat peritoneum. The introduction of the HAS1 and HAS2 genes promoted the growth of subcutaneous tumors in a manner dependent on the levels of hyaluronan synthesis. Significant growth promotion was observed within a wide range of HAS1 expression. In contrast, the growth stimulation was only seen within a narrow range of HAS2 expression, and high levels of HAS2 expression even inhibited tumor growth. These results suggest that proper regulation of the expression of each HAS isoform is required for optimal malignant transformation and tumor growth.
DOI 10.1074/jbc.M313178200
ISSN 0021-9258