Prolactin induces enhanced interferon gamma release in peripheral whole blood after stimulation with either PHA or LPS.

A number of recent studies have demonstrated the importance of prolactin as a key mediator in immune-neuroendocrine communication. Using a whole blood assay and various concentrations of prolactin, we stimulated cell cultures with either the plant lectin PHA or the endotoxin LPS, a widespread agent in common infectious diseases. Studying 15 healthy blood donors we found that human recombinant prolactin, at concentrations from 5 ng/ml to 100 ng/ml, significantly amplified IFN-gamma yields after stimulation with either PHA or LPS. PHA-stimulated cultures revealed a significant dose-dependent enhancement of IFN-gamma release. Our results indicate that prolactin can upregulate IFN-gamma secretion from immune cells in whole blood cell cultures in response to both PHA or LPS. Since IFN-gamma is suspected to play a key role in the cytokine cascade, amplifying the toxic effect of other pro-inflammatory cytokines and ultimately leading to augmented inflammatory tissue damage, our findings point to a modulatory role of prolactin in infection. Special interest should therefore be directed towards any naturally occurring hyperprolactinemia, caused for instance by stress, a number of drugs, and some chronic diseases.