section 38.2

Water-Soluble Vitamins

919

F IG U R E 3 8 -1 7

Metabolism of cobalamins in mammalian cells. Note the compartmentalization of the synthesis of the two coenzymes:

adenosylcobalamin (AdoCbl) synthesis occurs in mitochondria, whereas that of methylcobalamin (MeCbl) occurs in

cytoplasm. TCII, Transcobalamin II; OH-Cbl, hydroxocobalamin; T, transport protein for TCII-OHCbl complex; FH

4

,

MeFH

4

, tetrahydrofolate and methyltetrahydrofolate, respectively; Cbl, a cobalamin in which the ligand occupying the

sixth coordination position of the cobalt is not known. The numerical superscripts adjacent to some of the cobalamins

indicate the oxidation state of the cobalt ion. Cobalamins in the +1, +2, and +3 oxidation states are also known as B;

2

S,

B]

2

r, and B]

2

a, respectively.

IF. Transfer to IF is aided by the bicarbonate of pancre-

atic juice. At duodenal pH, IF has a greater affinity than

cobalophilin for B

12

. Patients with pancreatic insufficiency

may have vitamin B

12

deficiency.

The IF-cobalamin complex binds to specific receptors

on the luminal surface of ileal mucosal cells. Binding re-

quires Ca2+ and occurs optimally at pH >

6

.

6

. IF may enter

the mucosal cell with cobalamin, or it may bind to the re-

ceptor and release the vitamin into the cell interior. The IF-

receptor complex may then remain on the cell membrane

and transport other molecules of cobalamin into the cell.

Transfer of cobalamin to plasma is specifically to

transcobalamin II (TCII). The TCII-B

12

complex enters

virtually all cells of the body via a specific cell surface

receptor. The ligand-receptor complex is internalized and

appears in lysosomes, where TCII is degraded, thus free-

ing the cobalamin. Passage of cobalamin from lysosomes

into the cytoplasm may be mediated by a specific transport

mechanism. Fibroblasts from a child with developmental

delay and mild, B12-responsive methylmalonic aciduria

took up TCII-B

12

normally and released B

12

from the com-

plex, but the free B

12

accumulated within the lysosomes

rather than being released into the cytoplasm. This finding

suggests that the putative lysosomal B

12

transport system

was defective in this patient.

Thus, four major types of binding protein are needed

for absorption of cobalamin and for its uptake by tissues.

1.

Cobalophilins (R-proteins; R-binders).

These

proteins occur in plasma, gastric juice, saliva,

granulocytes, and other tissues and body fluids. Most

of the cobalophilin found in the stomach probably

comes from saliva. Cobalophilins are glycoproteins

(M.W. 56,000-66,000) that contain variable amounts