Expression of vitamin D receptors in the superior cervical ganglia of rats.

We investigated the role of vitamin D in the sympathetic nervous system including the distribution of vitamin D receptors (VDR), 1α-hydroxylase and 24-hydroxylase (CYP24) in neuronal subpopulations and satellite glia in the superior cervical ganglia (SCGs) of rats using immunohistochemistry. VDR immunoreactivity was observed in the cytoplasm and nucleus of nearly all neurons in the SCG. Intensity of VDR fluorescence was significantly greater in the cytoplasm of neuropeptide Y (NPY) negative somata compared to NPY positive neurons. Immunoreactivity for 1α-hydroxylase also was observed in the cytoplasm of all neurons of the SCG, but the intensity of fluorescence was less in the nuclei. To the contrary, the immunoreactivity for CYP24 was stronger in the nuclei, although it was present at lower intensity also in the cytoplasm of neurons. VDR and 1α-hydroxylase immunofluorescence was observed in many non-neuron cells, except satellite glial cells, which exhibited weak CYP24 immunofluorescence. Expression of VDRs and key metabolizing enzymes indicated the importance of vitamin D in the autonomic nervous system and the ability of sympathetic neurons to activate and deactivate vitamin D for its autocrine and paracrine roles.

Biochemical, pathological and oncological relevance of Gb3Cer receptor.

Glycosphingolipids are amphipathic molecules composed of hydrophilic oligosaccharide chain and a hydrophobic ceramide part, located primarily in the membrane microdomains of animal cells. Their oligosaccharide chains make them excellent candidates for the cell surface recognition molecules. Natural glycosphingolipid, globotriaosylceramide (Gal α1-4, Gal ß1-4, Glc ß1-1, ceramide), is also called CD77 and its expression was previously associated with proliferating centroblasts undergoing somatic hypermutation, but it has been demonstrate that globotriaosylceramide is not a reliable marker to discriminate human centroblasts from centrocytes. Globotriaosylceramide constitutes rare P k blood group antigen on erythrocytes, and it is also known as Burkitt's lymphoma antigen. On endothelial cells, globotriaosylceramide plays as the receptor for bacterial toxins of the Shiga family, also called verotoxins. Precise biological function and significance of globotriaosylceramide expression on endothelial cells remains to be the subject of many studies and it is believed globotriaosylceramide represents an example of a glycolipid antigen able to transduce a signal leading to apoptosis. In past decade, cancer researches put a great afford in determining new therapeutic agents such as bacterial toxins against tumor malignancies. Reports have demonstrated that verotoxin-1 induces apoptosis in solid tumor cell lines expressing globotriaosylceramide such as astrocytoma, renal cell carcinoma, colon cancer and breast cancer due to verotoxin-1 high specificity and apoptosis-inducing properties, and therefore, it is suggested to be an anticancer agent. Verotoxins have been investigated weather they could reduce treatment side-effects and toxicity to normal tissues and become a new oncological tool in cancer labeling.