B-ComplexvsHuperzine A

Each B vitamin serves specific neurological functions: B1 (thiamine) — cofactor for transketolase (pentose phosphate pathway), pyruvate dehydrogenase, and alpha-ketoglutarate dehydrogenase; essential for glucose metabolism and ATP production in neurons. B2 (riboflavin) — precursor to FAD/FMN, cofactors for Complex I and II of the electron transport chain, and glutathione reductase. B3 (niacin/niacinamide) — precursor to NAD+/NADPH via the salvage pathway; NAD+ is substrate for sirtuins, PARP, and 400+ dehydrogenases. B5 (pantothenic acid) — component of coenzyme A, required for acetylcholine synthesis via choline acetyltransferase and for fatty acid oxidation. B6 (pyridoxine) — cofactor for AADC (5-HTP to serotonin, L-DOPA to dopamine), GABA synthesis (GAD), and homocysteine metabolism. B9 (folate) — tetrahydrofolate donates methyl groups for dTMP and purine synthesis, and for homocysteine remethylation. B12 (cobalamin) — cofactor for methionine synthase (myelin maintenance) and methylmalonyl-CoA mutase.

Huperzine A is a potent, selective, and reversible inhibitor of acetylcholinesterase (AChE), binding to the enzyme's active site and preventing hydrolysis of acetylcholine to choline and acetate. By blocking AChE, it increases acetylcholine concentration in the synaptic cleft, prolonging activation of muscarinic (M1-M5) and nicotinic receptors. Huperzine A also blocks NMDA glutamate receptors in a non-competitive, use-dependent manner (similar to memantine), binding to the phencyclidine site within the ion channel and protecting neurons from excitotoxic calcium influx. It shows selectivity for the NR2A and NR2B subunits. Additionally, huperzine A has antioxidant properties, scavenging reactive oxygen species and reducing lipid peroxidation. It may enhance NGF signaling.