Upregulation of mammary gland OCTNs maintains carnitine homeostasis in suckling infants.

BACKGROUND: Transport of L-carnitine, essential cofactor of fatty acid metabolism, into breast milk is critical for the normal growth and development of the suckling infant. OBJECTIVE: To increase understanding of developmental expression of carnitine/organic cation (Octn) transporter family at different stages of murine breast development for carnitine delivery. METHODS: We applied our transporter-specific antibodies to mOctn1, mOctn2 and mOctn3 to sections of mammary glands of virginal non-lactating, pregnant, late lactating and post-lactating C3H females. RESULTS: We demonstrated differential expression of mOctn1, -2 and -3 in epithelial ducts, specialized myoepithelial cells and fatty stroma. There was notable upregulation of all three Octns and mRNA by RT-PCR concurrent with an increase in epithelial ducts in breasts of pregnant (15days gestation) and lactating mice (15-days post-partum) compared to virginal 6 week old females, and notable downregulation in expression of Octns 15 days after cessation of lactation. In lactating murine mammary gland at 15 days post-partum, there was a marked increase of fat globules in epithelial ducts. Octn1 and Octn2 had similar expression patterns in lactating gland cells which formed fat globules that were exocytosed into the lumen of alveoli along with transporters Octn1 and Octn2. Octn3 was primarily localized to myoepithelial cells surrounding the ducts at all stages of breast development. CONCLUSIONS: There is a dynamic upregulation of the Octn family in pregnant and lactating breasts which likely provides the suckling infant with adequate carnitine for the rapid postnatal upregulation of fatty acid oxidation and ketogenesis critical for cerebral energy metabolism during fasting hypoglycemia.

Epitope shared by functional variant of organic cation/carnitine transporter, OCTN1, Campylobacter jejuni and Mycobacterium paratuberculosis may underlie susceptibility to Crohn's disease at 5q31.

Campylobacter jejuni and Mycobacterium paratuberculosis have been implicated in the pathogenesis of Crohn's disease. The presence of bacterial metabolites in the colonic lumen causing a specific breakdown of fatty acid oxidation in colonic epithelial cells has been suggested as an initiating event in inflammatory bowel disease (IBD). l-Carnitine is a small highly polar zwitterion that plays an essential role in fatty acid oxidation and ATP generation in intestinal bioenergetic metabolism. The organic cation/carnitine transporters, OCTN1 and OCTN2, function primarily in the transport of l-carnitine and elimination of cationic drugs in the intestine. High-resolution linkage disequilibrium mapping has identified a region of about 250kb in size at 5q31 (IBD5) encompassing the OCTN1 and -2 genes, to confer susceptibility to Crohn's disease. Recently, two variants in the OCTN1 and OCTN2 genes have been shown to form a haplotype which is associated with susceptibility to Crohn's. We show that OCTN1 and OCTN2 are strongly expressed in target areas for IBD such as ileum and colon. Further, we have now identified a nine amino acid epitope shared by this functional variant of OCTN1 (Leu503Phe) (which decreases the efficiency of carnitine transport), and by C. jejuni (9 aa) and M. paratuberculosis (6 aa). The prevalence of this variant of OCTN1 (Phe503:Leu503) is 3-fold lower in unaffected individuals of Jewish origin (1:3.44) compared to unaffected individuals of non-Jewish origin (1:1). We hypothesize that a specific antibody raised to this epitope during C. jejuni or M. paratuberculosis enterocolitis would cross-react with the intestinal epithelial cell functional variant of OCTN1, an already less efficient carnitine transporter, leading to an impairment of mitochondrial beta-oxidation which may then serve as an initiating event in IBD. This impairment of l-carnitine transport by OCTN1 may respond to high-dose l-carnitine therapy.