Gene and protein expressions in human cord blood cells after exposure to acrylonitrile.

Acrylonitrile is a very high volume industrial chemical used primarily in the manufacture of plastics and rubber, which displays a pronounced acute toxicity and may be carcinogenic. The damage to the hematopoietic function by acrylonitrile may result from interference with cytokine production and cytokine receptor binding. Our present data show that acrylonitrile modulates the expression of some genes implicated in cell differentiation, cell-cycle progression, and clonogenic potential of human cord blood cells.

Response of human cord blood cells to styrene exposure: evaluation of its effects on apoptosis and gene expression by genomic technology.

Styrene is one of the most important monomers produced worldwide, and it finds major use in the production of polystyrene, acrylonitrile-butadiene-styrene resins and unsaturated polystyrene resins. Epidemiological studies on styrene showed that the malignancies observed most frequently in humans after exposure are related to the lymphatic and haemopoietic system. IARC classified styrene a possible carcinogenic to humans (Group 2B).

Naphthalene exposure: effects on gene expression and proliferation in human cord blood cells.

In this study, the effect of naphthalene on the induction of apoptosis and gene expression profiles in cord blood cells has been evaluated, as well as its activity on the BCL-2 related protein expression. After 6, 24, and 48 h of exposure to naphthalene (500 microM), a decrease in cell death was observed: the cells became more resistant to the toxicant and capable of surviving after the treatment. A Western blot analysis revealed an overexpression of BCL-2, c-JUN, c-FOS, and RAF-1 proteins, which are involved in the antiapoptotic response and in the regulation of cell growth, differentiation, and development.