Are PrP(C)s involved in some human myelin diseases? Relating experimental studies to human pathology.

We have experimentally demonstrated that cobalamin (Cbl) deficiency increases normal cellular prion (PrP(C)) levels in rat spinal cord (SC) and cerebrospinal fluid (CSF), and decreases PrP(C)-mRNA levels in rat SC. Repeated intracerebroventricular administrations of anti-octapeptide repeat-PrP(C)-region antibodies to Cbl-deficient (Cbl-D) rats prevent SC myelin lesions, and the administrations of PrP(C)s to otherwise normal rats cause SC white matter lesions similar to those induced by Cbl deficiency. Cbl positively regulates SC PrP(C) synthesis in rat by stimulating the local synthesis of epidermal growth factor (EGF), which also induces the local synthesis of PrP(C)-mRNAs, and downregulating the local synthesis of tumor necrosis factor(TNF)-α, thus preventing local PrP(C) overproduction.

Low levels of cobalamin, epidermal growth factor, and normal prions in multiple sclerosis spinal cord.

We have previously demonstrated that multiple sclerosis (MS) patients have abnormal cerebrospinal fluid (CSF) levels of the key myelin-related molecules cobalamin (Cbl), epidermal growth factor (EGF), and normal cellular prions (PrP(C)s), thus confirming that some CSF abnormalities may be co-responsible for remyelination failure. We determined the levels of these three molecules in post-mortem spinal cord (SC) samples taken from MS patients and control patients. The control SC samples, almost all of which came from non-neurological patients, did not show any microscopic lesions of any type.

Relationships between cobalamin, epidermal growth factor, and normal prions in the myelin maintenance of central nervous system.

Cobalamin (Cbl), epidermal growth factor (EGF), and prions (PrPs) are key molecules for myelin maintenance in the central and peripheral nervous systems. Cbl and EGF increase normal prion (PrP(C)) synthesis and PrP(C) levels in rat spinal cord (SC) and elsewhere. Cbl deficiency increases PrP(C) levels in rat SC and cerebrospinal fluid (CSF), and decreases PrP(C)-mRNA levels in rat SC.

Myelin damage due to local quantitative abnormalities in normal prion levels: evidence from subacute combined degeneration and multiple sclerosis.

Cobalamin (Cbl) deficiency causes an imbalance in some cytokines and growth factors in the central nervous system and peripheral nervous system (PNS) of the rat, and in the serum and cerebrospinal fluid (CSF) of adult Cbl-deficient (Cbl-D) patients. It is conceivable that this imbalance triggers subsequent cellular events. We hypothesized that an imbalance in normal prion (PrP(C)) levels and/or synthesis might be involved in the pathogenesis of Cbl-D neuropathy, and demonstrated that: (1) Cbl deficiency induces excess PrP(C) in rat spinal cord (SC) and PNS, concomitantly with myelin damage and PNS electrophysiological abnormalities; (2) the SC increase is mediated by a local Cbl deficiency-induced excess of tumor necrosis factor-α; (3) myelinotrophic Cbl and epidermal growth factor upregulate PrP(C)-mRNA levels in rat SC; (4) treatment with anti-PrP(C) octapeptide repeat region antibodies normalizes the ultrastructure of the Cbl-D rat SC and PNS myelins, and the PNS electrophysiological abnormalities, without modifying their Cbl-D status; (5) PrP(C) administration to otherwise normal rats causes SC and PNS myelin lesions and PNS electrophysiological abnormalities, similar to those of Cbl-D neuropathy; (6) CSF and serum PrP(C) concentrations in Cbl-D patients are significantly higher than in controls; and (7) these concentrations significantly correlate with their CSF and serum Cbl concentrations.

Cobalamin and normal prions: a new horizon for cobalamin neurotrophism.

It is known that cobalamin (Cbl) deficiency damages myelin by increasing tumor necrosis factor (TNF)-α and decreasing epidermal growth factor (EGF) levels in rat central nervous system (CNS), and affects the peripheral nervous system (PNS) morphologically and functionally. It is also known that some polyneuropathies not due to Cbl deficiency are connected with increased TNF-α levels, and that various cytokines (including TNF-α) and growth factors regulate the in vitro synthesis of normal prions (PrP(C)s). Given that there is extensive evidence that PrP(C)s play a key role in the maintenance of CNS and PNS myelin, we investigated whether the PrP(C) octapeptide repeat (OR) region is involved in the pathogenesis of rat Cbl-deficient (Cbl-D) polyneuropathy.