Poly(A) Polymerase Specifically Implicated in the Mechanism of Chemotherapeutic Drug Action during Cell Apoptosis

Abstract

It has recently been established that most anticancer drugs act through the mechanism of apoptosis. It has also been clinically confirmed that drug combinations are more effective than single drugs and various chemotherapeutic strategies have therefore been developed. The experiments described here concern the induction of apoptosis with dimethylsulfoxide (DMSO), a substance with multiple activity especially as an inducer of differentiation, and interferon (IFN), a cytokine well known for its antiviral and antineoplastic effects; they are used alone or in combination. Apoptosis may be regulated at all levels of gene expression including the addition of the poly(A) tail to the 3’ end of mRNAs. Poly(A) polymerase (PAP) [EC.2.7.7.19], the enzyme that catalyzes the addition of the poly(A) tail to mRNAs, changes in the process of development, differentiation, transformation and apoptosis. In the present study the induction of HeLa cells to apoptosis (65%) with a DMSO/rIFN-α combination resulted in pronounced PAP dephosphorylation and activity reduction. HeLa cells induced to apoptosis (35%) with DMSO gave lower levels of PAP dephosphorylation and reduction of activity and cells induced to apoptosis (18%) with rIFN-α gave only limited PAP dephosphorylation and reduction of activity. The implications of these observations for chemotherapeutic drug action at the level of mRNA polyadenylation point to the possible use of PAP as a biological marker for the evaluation of this action.

Keywords

Poly(A) polymerase Apoptosis DMSO rIFN-α

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