Abstract 4609: MEF2 plays a critical role in RENCA macrobead-induced tumor cell growth inhibition

In this study, we evaluated the expression and role of MEF2 in regulating cell proliferation in mouse (RENCA) and human cell lines (J82, MCF7) in response to RENCA macrobeads. Freely growing RENCA target cells transiently transfected with a MEF2 transcriptional response element and exposed to conditioned media from variously aged macrobeads demonstrated increased response element activation in parallel with the increasing age of the macrobeads. Similarly, growth inhibition of the freely growing RENCA cells increased with older macrobeads. Suppression of the expressed MEF2 isoforms in target RENCA cells, either individually (MEF2a, MEF2b, and MEF2d) or in combination (MEF2pool) using synthetic small interfering RNA (siRNA) markedly reduced the growth inhibitory effects of RENCA macrobeads. In J82 and MCF7 cell lines, MEF2D expression was responsive to replete media from RENCA macrobeads, increasing 2.0-fold and 2.7-fold respectively. Degradation of MEF2D mRNA transcripts in the human cell lines studied resulted in abatement of the growth inhibitory effect of the RENCA macrobeads. These findings reveal an essential role for MEF2 in RENCA macrobead-induced cancer cell growth inhibition and raise interesting questions about the molecular basis of this response. Citation Format: Prithy C. Martis, Atira Dudley, Melissa A. Laramore, Barry H. Smith, Lawrence S. Gazda. MEF2 plays a critical role in RENCA macrobead-induced tumor cell growth inhibition. [abstract]. In: Proceedings of th...
Source: Cancer Research - Category: Cancer & Oncology Authors: Tags: Experimental and Molecular Therapeutics Source Type: research