Showing papers by "Chandana Haldar published in 2010"

Photoimmunomodulation and melatonin

Abstract: The seasons, and daily physical rhythms can have a profound effect on the physiology of the living organism, which includes immune status. The immune system can be influenced by a variety of signals and one of them is photic stimulus. Light may regulate the immunity through the neuroendocrine system leading to the most recent branch of research the “Photoimmunomodulation”. Mammals perceive visible light (400–700 nm) through some specialized photoreceptors located in retina like retinal ganglion cells (RGC). This photic signal is then delivered to the visual cortex from there to the suprachiasmatic nucleus (SCN) of the hypothalamic region. Melatonin – one of the universally accepted chronobiotic molecule secreted by the pineal gland is now emerging as one of the most effective immunostimulatory compound in rodents and as oncostatic molecule at least in human. Its synthesis decreases with light activation along with norepinephrine and acetylcholine. The changes in level of melatonin may lead to alterations (stimulatory/inhibitory) in immune system. The evidences for the presence of melatonin receptor subtypes on lymphoid tissues heralded the research area about mechanism of action for melatonin. Further, melatonin receptor subtypes-MT1 and MT2 was noted on pars tuberalis, SCN and on lymphatic tissues suggesting a direct action of melatonin in modulation of immunity by photoperiod as well. The nuclear receptors (ROR, RZR etc.) of melatonin are known for its free radical scavenging actions and might be indirectly controlling the immune function.

Photoperiodic regulation of MT1 and MT2 melatonin receptor expression in spleen and thymus of a tropical rodent Funambulus pennanti during reproductively active and inactive phases.

Abstract: Photoperiodic regulation of melatonin receptor types on target tissues, such as lymphatic organs, has never been explored for any seasonal breeder. In the present study, we accessed the high affinity membrane melatonin receptors MT1 and MT2 expression dynamics in lymphoid organs (i.e., spleen and thymus) of a seasonally breeding rodent Funambulus pennanti during two major reproductive phases (i.e., active and inactive), when the internal hormonal (melatonin and gonadal steroid) as well as the ecological conditions were entirely different. Photoperiod regulates circulatory melatonin level; hence, we noted the effect of different photoperiodic regimes (long; 16L:8D and short; 10L:14D photoperiod) equivalent to summer and winter daylength on membrane melatonin receptor MT1 and MT2 expression in spleen and thymus. We have correlated the melatonin receptor expression with two major hormones varying seasonally (i.e., melatonin and testosterone) also being responsible for modulation of immunity of a seasonal breeder. Differential immunoreactivity of MT1 and MT2 receptor in spleen and thymus of F. pennanti suggests an involvement of both the receptor types in signal transduction of photoperiod for seasonal immunomodulation, because in the tropical zone, a slight difference (1:45–2 h) in daylength may change reproductive physiology and immunity of animals for adaptation. Our above suggestion receives strong support from the experiment of photoperiodic exposure on MT1 and MT2 expression at the translational level, where long daylength decreased the circulatory melatonin level and melatonin receptor expression in both lymphatic tissues. On the other hand, under short daylength, expression of MT1 and MT2 receptor increased in both spleen and thymus along with concomitant increase in circulatory melatonin level. Differential hormonal level of melatonin and gonadal hormones during reproductively active and inactive phase and its direct relation with melatonin receptor expression dynamics in lymphoid organs could be

Melatonin and Androgen Receptor Expression Interplay Modulates Cell-Mediated Immunity in Tropical Rodent Funambulus pennanti: An In-Vivo and In-Vitro Study

Abstract: An inverse relation exists between melatonin and androgen in most of the seasonally breeding rodents, but the regulation of their receptors in modulation of immune function has never been reported. The present study accessed the expression pattern of melatonin receptor types (mt1R & mt2R), immune parameters (lymphoid organs weight, leucocyte count, delayed type hypersensitivity and lymphocyte proliferation) in spleen and thymus whereas androgen receptor (AR) expression in thymus of Funambulus pennanti during reproductively active phase. In-vivo melatonin treatment (Mel) and castration (Cx) significantly increased mt1R expression, immune parameters in spleen and thymus but decreased AR expression in thymus only when compared with sham control (Con) squirrels as AR expression was not observed in spleen. Mel alone or in combination with testosterone (T) to Cx squirrels significantly increased mt1R expression, immune parameters in spleen and thymus but decreased AR expression in thymus. T alone in Cx squirrels significantly decreased mt1R expression, immune parameters in spleen and thymus but increased thymic AR expression significantly. In-vitro thymocyte culture supported our in-vivo findings. Mel significantly increased mt1R expression, lymphocyte proliferation, IL-2 secretion but decreased AR expression. T alone significantly decreased aforementioned three parameters but increased AR expression. Combined treatment of Mel and T bring back all parameters to control level. Though we found high mt2R expression, but no significant change has been observed. Thus, present study suggests a clear-cut trade-off relation between mt1R and AR expression that might be acting as an important mediator in seasonal adjustment of immune function in tropical rodents.

Effect of intra-testicular melatonin injection on testicular functions, local and general immunity of a tropical rodent Funambulus pennanti

Abstract: Local antigonadotrophic action of melatonin in testes has never been correlated with local and general immune status of any rodent Intra-testicular injection of melatonin (25 μg/50 μl) for 10 days (MI-10D) and 20 days (MI-20D) was given to young adult male of Funambulus pennanti and testicular androgen receptor (AR), androgen binding protein (ABP) expression, 3β-hydroxysteroid dehydrogenase (3β-HSD) activity, and Mel1aR expression in thymus was checked along with general immune parameters Further, immunohistochemical localization of Mel1aR in testes was done Decreased AR, ABP expression, testes weight, 3β-HSD activity, testosterone level, and spermatogenesis but increased Mel1aR expression in thymus, immunoreactivity in testes, and testicular macrophages following injection was noted Lymphatic tissue weight, leukocyte, lymphocyte count, lymphocyte proliferation in spleen, thymus, plasma melatonin, and IL-2 level increased in a duration-dependent manner following intra-testicular injection Intra-testicular injection of melatonin decreased steroidogenesis by enhancing the primary effect of melatonin on Leydig cell endocrine function Along with reduced circulatory testosterone production, an increase in testicular as well as general immunity was observed in a duration-dependent manner Therefore, a local participation of melatonin in testes of F pennanti to control testicular androgen production is suggested

Effect of Glucocorticoid and Melatonin on Immune Function of an Indian Tropical Bird, Perdicula Asiatica: An in Vivo and in Vitro Study:

Abstract: Inverse relationship between circulatory levels of glucocorticoids and melatonin has been reported for most of the vertebrates including human beings. We report the importance of glucocorticoid alo...