The efficiency of adenovirus transformation of rodent cells is inversely related to the rate of viral E1A gene expression

Author:

Adami G R1,Babiss L E1

Affiliation:

1. Laboratory of Molecular Cell Biology, Rockefeller University, New York, New York 10021-3699.

Abstract

While the products of the type 5 adenovirus E1A and E1B genes can initiate pathways leading to a transformed rodent cell, little is known about how the rate of viral early gene expression influences the efficiency of this process. An adenovirus mutant [E1a(r) virus] that expresses its viral E1A and E1B genes at as much as a 100-fold-reduced rate relative to wild-type virus in infected CREF or HeLa cells transforms CREF cells at an 8-fold-higher efficiency than wild-type virus. Additional studies show that the reduction in viral E1A gene expression is solely responsible for this transformation phenotype, and at this low rate of viral E1A gene expression both E1A gene products must be expressed. Unlike previously characterized viruses which transform CREF cells at frequencies greater than wild-type virus, the foci obtained following E1a(r) virus infection were indistinguishable from those arising from wild-type virus by several criteria (morphological characteristics and anchorage-independent growth). Surprisingly, an analysis of viral early gene expression from a panel of wild-type- and E1a(r) virus-transformed CREF cell lines showed similar average rates of both viral E1A and E1B gene expression. By using an adenovirus-transformed cell line that is cold-sensitive for maintenance of the transformed cell phenotype, we show that both wild-type and the E1a(r) viruses can transform these cells at equally high efficiencies at the nonpermissive temperature of 32 degrees C. Our findings suggest that the process leading to a fully transformed cell involves multiple stages, with an early stage being facilitated by a reduced rate of viral E1A gene expression.

Publisher

American Society for Microbiology

Subject

Virology,Insect Science,Immunology,Microbiology

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