Tumor Necrosis Factor α and Toxicology

Abstract

The molecular cloning of a group of proteins, collectively referred to as cytokines, and including interleukins, chemokines, growth factors, colony stimulating factors, and tumor necrosis factors, has allowed for the increased understanding of the mechanisms for many disease processes as well as provided strategies for the development of novel therapies. Conceptually similar to hormones and peptides, this group of phylogenetically related molecules are also involved in various toxicological processes, including apoptosis, cell repair, and in particular inflammation. In this review, we offer a description of what many believe represents the primary regulatory cytokine, tumor necrosis factor (TNF)α and its role in toxicological processes. For over a decade it has been suspected that this molecule helps mediate the shock state induced by bacterial endotoxin and the wasting diathesis that typifies chronic diseases. Advances in molecular biology that have provided tools to modulate TNFα regulation and synthesis have allowed for the identification of additional roles for TNFα in homeostasis, cellular damage, and repair. This review provides a brief summary of our understanding of TNFα biology followed by a discussion of its role in toxicological responses. This is followed by specific examples of organ-specific and tissue-specific responses to chemical damage where TNFα has been implicated. The review concludes with a review of its implication in human risk assessment, particularly as it relates to genetic polymorphisms of TNFα expression and disease susceptibility.