화학공학소재연구정보센터
Biotechnology and Bioengineering, Vol.108, No.7, 1603-1615, 2011
Chemostat-Based Transcriptional Analysis of Growth Rate change and Bcl-2 Over-Expression in NS0 Cells
We investigated the transcriptional response of NS0 cells undergoing controlled nutrient growth change in continuous chemostat culture using mouse microarrays. A 50% reduction in growth rate resulted in detectable alterations in the expression of 29 genes in NS0 cells. Notably, expression of genes in three major biological processes, namely transcriptional, translational, and protein processing functions, were modified. To further elucidate the advantage of the chemostat environment for establishment of "omic'' data sets, an expression profile of the over-expressed gene bcl-2 in NS0 cells was probed. Functional analysis revealed that the underlying altered molecular mechanism was particularly associated with G1 cell cycle progression, protein synthesis, and apoptosis. Importantly, these findings agreed with the physical function of the cells. Despite an increase in survival rate, bcl-2 over-expression resulted in a decrease of specific productivity, glucose consumption, oxygen uptake rate and intracellular protein content, indicating a lower energy generating metabolism. Further, a prolongation of G1 cell cycle phase was evident on lowering the growth rate. Overall, the application of microarray analysis to chemostat-grown cultures offers an excellent combination for the interpretation of transcriptomic profiles to elucidate the molecular mechanisms during nutrient growth change and bcl-2 over-expression. Biotechnol. Bioeng. 2011; 108: 1603-1615. (C) 2011 Wiley Periodicals, Inc.