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Melatonin membrane receptor type MT1 modulates cell-mediated immunity in the seasonally breeding tropical rodent Funambulus pennanti.

Neuroimmunomodulation
January 1, 2012
Raise Ahmad et al. (3 authors)
Journal ArticleResearch Support, Non-U.S. Gov'tAnimal Study
Extracted Claims (11)
InterventionDirectionEndpointPopulationDosageImpactClaim #
melatonin (physiological doses: 25 μg/100 g body weight in vivo and 100 and 500 pg/ml in vitro)
increase
MT1R and MT2R expression
-
-
upregulated
#1
melatonin (physiological doses: 25 μg/100 g body weight in vivo and 100 and 500 pg/ml in vitro)
increase
splenocyte proliferation
-
-
upregulated
#2
melatonin (higher doses: 100 and 500 μg/100 g body weight in vivo and 1 ng/ml in vitro)
decrease
splenocyte proliferation
-
-
downregulated
#3
melatonin (higher doses: 100 and 500 μg/100 g body weight in vivo and 1 ng/ml in vitro)
decrease
expression of both MT1R and MT2R receptors
-
-
downregulated
#4
luzindole
decrease
expression of both MT1R and MT2R
-
dose-dependent manner
antagonized
#5
4P-PDOT
decrease
expression of MT2R
-
-
blocked
#6
melatonin
increase
immune function
tropical rodents
-
regulated
#7
melatonin
increase
splenocyte proliferation
-
-
plays a directive role in mediating
#8
melatonin
increase
IL-2 release
-
-
plays a directive role in mediating
#9
melatonin
no change
splenocyte proliferation
-
-
showed no definite relation with
#10
melatonin
no change
IL-2 secretion
-
-
showed no definite relation with
#11
Abstract

OBJECTIVE: Despite the evidence for melatonin membrane receptors (MT1R and MT2R) on lymphoid tissues in a wide range of seasonal breeders, their specific potency has never been compared and correlated with cell-mediated immunity. METHODS: We used luzindole, a nonselective MT2R antagonist, and 4-phenyl-2-propionamidotetralin (4P-PDOT), a selective MT2R antagonist, to assess the potency of the melatonin receptors MT1 and MT2 in melatonin-induced immunity under both in vivo as well as in vitro conditions. RESULTS: Physiological doses (25 μg/100 g body weight in vivo and 100 and 500 pg/ml in vitro) of melatonin upregulated both MT1R and MT2R expression as well as splenocyte proliferation, while higher doses (100 and 500 μg/100 g body weight in vivo and 1 ng/ml in vitro) downregulated splenocyte proliferation and the expression of both receptors. Luzindole antagonized the expression of both MT1R and MT2R in a dose-dependent manner under in vivo as well as in vitro conditions, while 4P-PDOT blocked the expression of MT2R only during both experimental conditions. Splenocyte proliferation and IL-2 secretion (in vitro) followed the MT1R expression pattern, while the MT2R expression pattern showed no definite relation with either splenocyte proliferation or IL-2 secretion under in vivo and in vitro conditions. CONCLUSION: Immune function in tropical rodents is directly regulated by melatonin via its high-affinity membrane receptor MT1. MT1R plays a directive role in mediating splenocyte proliferation and IL-2 release, while the MT2R subtype appears not to be required for the immunoenhancing role of melatonin.

Medical Subject Headings (MeSH)
Analysis of VarianceAnimalsBreedingCell ProliferationCells, CulturedConcanavalin ADose-Response Relationship, DrugGene Expression RegulationImmunityIn Vitro TechniquesInterleukin-2LymphocytesMaleMelatoninMitogensRandom AllocationReceptor, Melatonin, MT1SciuridaeSeasonsSpleenTetrahydronaphthalenesTryptamines
Study Links
PubMed ID22067622
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