Viamin B12
Vitamin B12 (Cobalamin) is an essential nutrient in our diet. Vitamin B12 is required for development of red blood Cells and is used to make the protective coating surrounding nerves. It exists in different chemical forms. All the Vitamin B12 have a cobalt atom at the centre of a corrin ring. The major natural vitamin B12 (cobalamin) is methylcobalamin, found in human plasma and in cell cytoplasm. It is the cofactor for methionine synthase. In nature, the Vitamin b12 is mainly in the 2-deoxyadenosyl (ado) form, which is located in mitochondria. It is the cofactor for the enzyme methylmalonyl CoA mutase. There are also minor amounts of hydroxocobalamin to which methyl and adocobalamin are rapidly converted by exposure to light. The Vitamin B12 is synthesized solely by microorganisms. The only source of Vitamin B12 for humans is food of animal origin. i.e. meat, fish and dairy products. Vegetables, fruits, and other foods of non animal origin are free from Vitamin B12 unless they are contaminated by bacteria. A normal Western diet contains between 5 and 30µg of Vitamin B12 daily. An adult daily losses between 1 and 3µg (-0.1% of body stores) of Vitamin B12 by urine and feces, and as the body does not have the ability to degrade Vitamin B12, daily requirements are also about 1-3 µg. Body stores are of the order of 2-3mg, sufficient for 3-4 years if supplies are completely cut off.
Out of the two mechanisms existing for absorption of Vitamin B12, one is passive, occurring equally through buccal, duodenal and ileal mucosa, is rapid but extremely inefficient, less than 1% of an oral dose is being absorbed by this process. The normal physiologic mechanism is active; it occurs through the ileum and is efficient for small oral doses of Vitamin B12 and is medicated by gastric intrinsic factor. Dietary Vitamin B12 is released from protein complexes by enzymes in the stomach, duodenum and jejunum; it combines rapidly with a salivary glycoprotein that belongs to the family of cobalamin-binding proteins known as haptocorrins. In the intestine, the haptocorrin is digested by pancreatic trypsin and the Vitamin B12 is transferred to intrinsic factor. The intrinsic factor-cobalamin complex passes to the ileum, where intrinsic factor attaches to a specific receptor(cubilin) on the microvillus membrane of the enterocytes. The Vitamin B12 –intrinsic factor complex enters the ileal cell where intrinsic factor is destroyed. After about 6 hours, the Vitamin B12 appears in portal blood attached to transcobalamin (TC)II. A major portion of biliary Vitamin B12 is normally reabsorbed together with Vitamin B12 derived from sloughed intestine cells.
There are two main Vitamin B12 transport proteins exists in human plasma; they both bind Vitamin B12 . One haptocorrin, known as transcobalamin I, is closely related to other cobalamin-binding haptocorrins in milk, gastric juice, bile, saliva, and other fluids. It is about two-thirds saturated with cobalamin. The other major Vitamin B12 transport protein in plasma is transcobalamin II. This is synthesized by liver and other tissues. It gives up cobalamin to marrow, placenta, and other tissues.
