9-Me-BC/9-methyl-9H-pyrido[3,4-b]indole powder

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asked Oct 30, 2019 in 3D Segmentation by freemexy (47,810 points)

9-Me-BC powder is a methylated derivative of β-carboline with the molecular formula C12H10N2. It may be prepared by preforming the Eschweiler–Clarke reaction on freebase β-carboline (norharmane).beta carboline powder

In vitro studies with dopaminergic neuron cell cultures demonstrated increased expression of tyrosine hydroxylase and associated transcription factors, increased neurite outgrowth, regeneration of neurons after chronic rotenone administration, and reduced expression of inflammatory cytokines. In studies of primary mesencephalic dopaminergic neuron cell cultures, the substance increased the number of differentiated dopaminergic neurons and produced higher levels of transcription factors associated with dopaminergic differentiation.[2] 9-Me-BC also inhibited the oxidation of the neurotoxin precursor MPTP to the dopaminergic neurotoxin MPP+ in vitro.

Rodent studies in vivo demonstrated elevated hippocampal dopamine levels, improved spatial learning performance in a radial maze test, and increased dendrite outgrowth in the dentate gyrus of the hippocampus, as well as restoration of the number of tyrosine hydroxylase expressing neurons in the left striatum after an injection of MPP+ had reduced the number of such cells by 50% in an animal model of Parkinsonism.
β-Carbolines (BCs) belong to the heterogenous family of carbolines, which have been found exogenously, that is, in various fruits, meats, tobacco smoke, alcohol and coffee, but also endogenously, that is, blood, brain and CSF. These exogenous and endogenous BCs and some of their metabolites can exert neurotoxic effects, however, an unexpected stimulatory effect of 9-methyl-β-carboline (9-me-BC) on dopaminergic neurons in primary mesencephalic cultures was recently discovered. The aim of the present study was to extend our knowledge on the stimulatory effects of 9-me-BC and to test the hypothesis that 9-me-BC may act as a cognitive enhancer. We found that 10 days (but not 5 days) of pharmacological treatment with 9-me-BC (i) improves spatial learning in the radial maze, (ii) elevates dopamine levels in the hippocampal formation, and (iii) results after 10 days of treatment in elongated, more complex dendritic trees and higher spine numbers on granule neurons in the dentate gyrus of 9-me-BC-treated rats. Our results demonstrate that beyond its neuroprotective/neurorestorative and anti-inflammatory effects, 9-me-BC acts as a cognitive enhancer in a hippocampus-dependent task, and that the behavioral effects may be associated with a stimulatory impact on hippocampal dopamine levels and dendritic and synaptic proliferation.

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