%0 Journal Article
%T A Micro-RNA Connection in -Mediated Premature Senescence of Human Melanocytes
%A Gang Ren
%A Jingwei Feng
%A Ila Datar
%A Aaron H. Yeung
%A Srinivas Vinod Saladi
%A Yongqing Feng
%A Ivana de la Serna
%A Kam C. Yeung
%J International Journal of Cell Biology
%D 2012
%I Hindawi Publishing Corporation
%R 10.1155/2012/913242
%X Recent high-throughput-sequencing of the cancer genome has identified oncogenic mutations in BRaf genetic locus as one of the critical events in melanomagenesis. In normal cells, the activity of BRaf is tightly regulated. Gain-of-function mutations like those identified in melanoma frequently lead to enhanced cell-survival and unrestrained growth. The activating mutation of BRaf will also induce the cells to senesce. However, the mechanism by which the oncogenic BRaf induces the senescent barrier remains poorly defined. microRNAs have regulatory functions toward the expression of genes that are important in carcinogenesis. Here we show that expression of several microRNAs is altered when the oncogenic version of BRaf is introduced in cultured primary melanocytes and these cells undergo premature cellular senescence. These include eight microRNAs whose expression rates are significantly stimulated and three that are repressed. While most of the induced microRNAs have documented negative effects on cell cycle progression, one of the repressed microRNAs has proven oncogenic functions. Ectopic expression of some of these induced microRNAs increased the expression of senescence markers and induced growth arrest and senescence in primary melanocytes. Taken together, our results suggest that the change in microRNA expression rates may play a vital role in senescence induced by the oncogenic BRaf. 1. Introduction Unregulated oncogene expression during cancer development causes cancer cells to senesce prematurely, a gene-directed program that irrevocably induces cell cycle arrest [1每4]. First described in cell culture [5], oncogene-induced senescence (OIS) has been confirmed in vivo as a vital mechanism that constrains the malignant progression of many tumors [3]. Unregulated oncoproteins promote senescence by activating effector pathways that are cell-type and oncogene specific. Recent progress identified different regulatory circuitries of OIS, but much remains to be learned [6]. High-throughput sequencing of the cancer genomes has identified BRaf kinase as the most frequently mutated (50每70%) oncogene in melanoma [7]. About 90% of BRaf gain-of-function mutations are at position 600 with glutamic acid (E) inserted for valine (V) [7]. BRaf is a serine/threonine protein kinase that functions directly downstream of the small GTPase Ras and upstream of the MEK and ERK mitogen-activated protein kinase (MAPK) cascade. This mutation significantly increases BRaf kinase activity toward MEK, causing constitutive BRaf-MEK-ERK signaling [7, 8]. The BRaf gain-of-function
%U http://www.hindawi.com/journals/ijcb/2012/913242/