Robert Bookstein

Comparative mutational analysis of DPC4 (Smad4) in prostatic and colorectal carcinomas.

Allelic deletions of chromosome 18q are reported to be common in prostate and colorectal cancers, suggesting that one or more tumor suppressor genes on 18q are involved in the genesis of these neoplasms. The DPC4 gene, a recently identified candidate tumor suppressor in 18q21, was examined for evidence of inactivation in prostatic carcinomas, and results compared to those of a parallel analysis of colorectal carcinomas, for which DPC4 mutation has been reported in ∼10% of cases. In this study, only three (10%) of 29 informative primary prostate cancers showed allelic loss of chromosome 18q21 markers, and no point mutations or deletions of DPC4 were detected in the complete set of 45 primary or metastatic cases. In contrast, five (56%) of nine primary colorectal tumors displayed allelic loss of 18q markers and in one of these a somatically acquired G→T missense mutation was found in exon 1. Of twelve colorectal tumor cell lines, one showed a G→C missense mutation in exon 8 and two had partial homozygous deletions that would likely abrogate gene function. These data suggest that DPC4 is rarely if ever mutated during prostatic oncogenesis, whereas inactivation of this gene may contribute to the genesis of a subset of colorectal carcinomas.

Phenotypic analysis of human glioma cells expressing the MMAC1 tumor suppressor phosphatase.

MMAC1, also known as PTEN or TEP-1, was recently identified as a gene commonly mutated in a variety of human neoplasias. Sequence analysis revealed that MMAC1 harbored sequences similar to those found in several protein phosphatases. Subsequent studies demonstrated that MMAC1 possessed in vitro enzymatic activity similar to that exhibited by dual specificity phosphatases. To characterize the potential cellular functions of MMAC1, we expressed wild-type and several mutant variants of MMAC1 in the human glioma cell line, U373, that lacks endogenous expression. While expression of wild-type MMAC1 in these cells significantly reduced their growth rate and saturation density, expression of enzymatically inactive MMAC1 significantly enhanced growth in soft agar. Our observations indicate that while wild-type MMAC1 exhibits activities compatible with its proposed role as a tumor suppressor, cellular expression of MMAC1 containing mutations in the catalytic domain may yield protein products that enhance transformation characteristics.

Intra-arterial delivery of p53-containing adenoviral vector into experimental brain tumors

Human tumor xenografts established in athymic rat brains were used to determine the feasibility of intravascular delivery of tumor suppressor genes to brain tumors. Both tumor size and number were compared to characterize the effect of tumor burden on tumor transduction efficacy by a control LacZ-containing adenoviral vector. Experiments with tumors grown in vivo for either 3, 5, or 7 days demonstrated that 5-day-old tumors provided the best target for vector infection and transgene expression by this mode of administration. Intra-arterial mannitol facilitated transduction efficiency. Tumor burden did not seem to affect transduction, while tumor location appeared to be an important factor. Based on these results, intra-arterial infusion of a p53-containing adenoviral vector was carried out and resulted in significant retardation of brain tumor growth 3 days after administration. Effects at longer time points were not as significant. These findings indicate that intra-arterial administration of adenoviral vectors containing p53 is efficient and can result in changes in tumor size, but that long-term control of tumor growth may require multiple adenoviral treatments.

In Vivo Tumor Suppression by Adenovirus-Mediated Interferon alpha2b Gene Delivery

A replication-deficient adenovirus encoding human interferon alpha2b, driven by the human cytomegalovirus (CMV) promoter, was constructed and characterized. This construct was used to infect human cells derived from different types of cancer. The production of protein and its secretion into the culture medium were tested by Western blotting and immunoassay. Inhibition of cell proliferation and antiviral activity, two of the most important biological activities of interferon, were observed with this construct. PC-3 cells, derived from human prostatic cancer, or Hep3B cells, derived from human hepatocellular carcinoma, were injected subcutaneously to generate and establish in vivo tumors in athymic nude mice. Intratumoral injection with the recombinant adenovirus expressing interferon alpha2b resulted in complete regression of tumor growth. Our results demonstrate that interferon gene delivery using recombinant adenoviral vectors may be a useful approach to treat a variety of cancers.