On the synthesis of vitamin D in the darkness

Published evidence reports the existence of two routes for the transformation of 7-dehydrocholecalciferol into previtamin D3: a photochemical route with the participation of UVB photons and another route that occurs in the darkness. Several reports appears to support the presence of these two routes in some mammals, birds, nonvascular plants (e.g.: mosses), vascular plants (e.g.: angiosperms) and lichens. The reviewed evidence suggests that in the darkness, the synthesis of vitamin D3 follows the same scheme of the photochemical pathway, but at a reduced rate respect to the synthesis under UVB radiation. The process of vitamin D synthesis in the dark, then, may be taken as an insurance for survival, at least for mammals and birds.
The low rate of the synthesis of vitamin D3 in the absence of light produce low concentrations of vitamin D3 metabolites in plasma. Long term survival under these circumstances might be possible through upregulation of vitamin D receptors (VDRs). In mole rats (South African rodents that live in the dark in underground tunnels), the reduced rate of vitamin D3 synthesis produce low levels of plasma vitamin D3 and their metabolites 25(OH) D3 and 1α,25OH2D3. The fact that Kd and βmax of the complex 1α,25(OH)2D3-VDR from the intestinal mucosa, kidneys and the Harderian glands of the mole rat Heterocephalus glaber are significantly different in each one of these tissues, is interpreted as an indicator that the VDRs are, in each tissue, adapted to the maintenance of normal physiological functions.