Photoperiodic induced melatonin regulates immunity and expression pattern of melatonin receptor MT1 in spleen and bone marrow mononuclear cells of male golden hamster

• Short Day (SD) enhanced the proliferation of splenocytes, PBMC and GM-CFU.
• SD induced circulatory melatonin increased the IL-2 and anti-KLH IgG production.
• Melatonin acts as an immunostimulator via increasing expression of receptor MT1.

The pineal gland transduces day length information into chemical signal of melatonin that ultimately translates photic stimulus into season-specific immune responses to promote survival of individual from incidence of opportunistic diseases. To date, the immune adjustments being a result of photoperiodic exposures for any nocturnal seasonally breeding rodent have not been systematically examined. Therefore, we evaluated the humoral and cell mediated immune responses of photoperiodically entrained male golden hamsters. Short day induced melatonin increased the immune parameters such as spleen mass, total leukocyte (TLC) and lymphocyte count (LC), proliferation of splenocytes, peripheral blood mononuclear cells (PBMCs) and bone marrow mononuclear cells (BMMNCs) along with serum IL-2 and anti-Keyhole Limpet Hemocyanin (KLH) IgG production when compared with long day experienced hamsters. Short term melatonin treatment (for two weeks) to long day hamsters enhanced to some extent the proliferation of splenocytes, PBMC and TLC/LC. We also localized the melatonin membrane receptor MT1 in spleen and BMMNCs that strongly supported our western blot analysis for the expression of MT1 in spleen suggesting that different photoperiodically induced circulatory melatonin is responsible for the immunomodulation. Therefore, photoperiod can influence the peripheral melatonin level to improve immune responses of hamsters according to season for better survival.