Presence of cobalamin analogues in animal tissues.

Abstract

Cobalamin (Cbl, vitamin B-12) has been extracted and isolated from a number of animal tissues by using (i) reverse-affinity chromatography on R protein-Sepharose followed by adsorption to and elution from charcoal-coated agarose and (ii) paper chromatography. Radioisotope dilution assays showed that only 75-97% of the Cbl chromatographed in the position of crystalline Cbl. The remaining 3-25% was present in a number of slower and faster moving fractions. This suggested that Cbl analogues are present in animal tissues because appropriate controls ruled out the possibility that this material was artifactually derived from Cbl during the extraction and purification procedures. With a large-scale isolation from rabbit kidney, the material in five such fractions contained cobalt and had absorption spectra that were similar to but different from the spectrum of Cbl, indicating that they were Cbl analogues. Compared to Cbl, these Cbl analogues had decreased but definite affinities for Cbl-binding proteins with the following order of strength of binding: R protein > transcobalamin II > intrinsic factor. Compared to Cbl, they also had decreased but definite growth-promoting activity for two microorganisms, Euglena gracilis and Lactobacillus leichmannii, which require Cbl for growth. These Cbl analogues differed from each other and from 18 synthetic Cbl analogues, including the most common Cbl analogues synthesized by microorganisms, in at least one of the above features. These studies indicate that animal tissues contain a number of Cbl analogues whose origins, structures, and biologic activities remain to be determined.