1. Academic Validation
  2. Designed FHIT alleles establish that Fhit-induced apoptosis in cancer cells is limited by substrate binding

Designed FHIT alleles establish that Fhit-induced apoptosis in cancer cells is limited by substrate binding

  • Proc Natl Acad Sci U S A. 2003 Feb 18;100(4):1592-7. doi: 10.1073/pnas.0437915100.
Francesco Trapasso 1 Agnieszka Krakowiak Rossano Cesari Jeffrey Arkles Sai Yendamuri Hideshi Ishii Andrea Vecchione Tamotsu Kuroki Pawel Bieganowski Helen C Pace Kay Huebner Carlo M Croce Charles Brenner
Affiliations

Affiliation

  • 1 Genetics and Molecular Biology Program, Kimmel Cancer Center, Philadelphia, PA 19107, USA.
Abstract

The FHIT gene is inactivated early in the development of many human tumors, and Fhit-deficient mice have increased Cancer incidence. Viral reexpression of Fhit kills Fhit-deficient cells by induction of Apoptosis. Fhit, a member of branch 2 of the histidine-triad superfamily of nucleoside monophosphate hydrolases and transferases, is a diadenosine polyphosphate hydrolase, the active-site histidine of which is not required for tumor suppression. To provide a rigorous test of the hypothesis that Fhit function depends on forming a complex with substrates, we designed a series of alleles of Fhit intended to reduce substrate-binding andor hydrolytic rates, characterized these mutants biochemically, and then performed quantitative cell-death assays on Cancer cells virally infected with each allele. The allele series covered defects as great as 100,000-fold in k(cat) and increases as large as 30-fold in K(M). Nonetheless, when mutant FHIT genes were expressed in two human Cancer cell lines containing FHIT deletions, reductions in apoptotic activity correlated exclusively with K(M). Mutants with 2- and 7-fold increases in K(M) significantly reduced apoptotic indices, whereas the mutant with a 30-fold increase in K(M) retained little cellular function. These data indicate that the proapoptotic function of Fhit is limited by substrate binding and is unrelated to substrate hydrolysis.

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