1.
Sources and Structure
1.1
Sources
Coluracetam (full structural name of 2-(2-oxopyrrolidin-1-yl)-N-(2,3-dimethyl-5,6,7,8-tetrahydrofuro2,3-b quinolin-4-yl)acetoamide and codenames of MKC-231 or BCI-540) is a racetam compound formulated as a nootropic for the purpose of cognitive enhancement.
Coluracetam is a synthetic drug of the racetam family designed to support cholinergic function, particular for the treatment of Alzheimer's
1.2
Structure
2.
Pharmacology
2.1
Serum
Plasma concentrations of coluracetam in rats following oral ingestion of 10mg/kg have been noted to be 4.289+/-0.641µg/mL (30 minutes), 0.717+/-0.350µg/mL (3 hours), and 0.037+/-0.010µg/mL (24 hours).[2] The kinetics following seven or fourteen days of supplementation was similar.[2]
Coluracetam has been detected in plasma following oral ingestion, and appears to be able to reach high levels within 30 minutes and is already on the decline within 3 hours
2.2
Neurological
Oral intake of 10mg/kg coluracetam to rats has been noted to be detected in the brain at 30 minutes post-ingestion (210+/-54ng/g wet weight) and is detectable at three hours (30+/-16ng/g wet weight) but not a day after ingestion.[2] Supplementation of coluracetam for 7-14 days does not alter these kinetics.[2]
Coluracetam can be detected in neural tissue within 30 minutes of ingestion, and is significantly reduced in concentration within 3 hours
3.
Neurology
3.1
Cholinergic Neurotransmission
High affinity choline uptake (HACU) is the uptake of choline at the synpase for the purpose of acetylcholine synthesis, and is seen as a rate-limiting step of acetylcholine synthesis. Coluracetam appears to associated with these transporters.[1]
Velocity of HACU correlates well with cholinergic neuron activity[3][4] and HACU is usually perturbed in Alzheimer's disease[5][6] (some contradictory data[7]).
HACU appears to be a rate-limiting step of acetylcholine synthesis
Coluracetam has been noted to, in rats treated with choline uptake inhibitors (such as AF64A[8]), increase choline uptake and acetylcholine synthesis[9] associated with an increase in Vmax (1.7-fold) and Bmax (1.6-fold) at 10nM concentration.[1] KM appears unaffected from coluracetam,[1] but is not inherently impaired by the research toxin AF64A.
HACU does not appear to be influence in hippocampal slices derived from rats not treated with choline uptake inhibitors,[10] with both the KM and Vmax being unaffected as well.[1] Additionally, ligand (HC-3) binding to cholinergic receptors in normal rats appears unaffected.[1]
Coluracetam appears to be able to increase the activity of this step when it is otherwise impaired but preliminary evidence suggests that this is not an inherent effect
Hippocampal concentrations of acetylcholine that are reduced by HACU inhibitors are able to be partially preserved with oral treatment of 300-1,000mcg/kg coluracetam over twelve days with no acute effect nor benefit with 3mg/kg.[11]
Coluracetam may be able to attenuate learning deficits seen with choline uptake inhibitors as assessed by water maze, and is active orally at the dosage of 1-10mg/kg in rats.[10] Elsewhere, the effects of 300-3,000mcg coluracetam have not been detected after single administration but were present (near full restoration of performance in a T-maze) after 12 days.[11] Benefits to cognition in this research model (AF64A treated) have been noted at 1-3mg/kg coluracetam to extend for up to two days after supplement cessation despite no detectable coluracetam in the brain (no significant benefit on the third day).[2]
One study has noted that the cholinergic dysfunction induced in rats by phencyclidine (a research drug to induce symptoms associated with schizophrenia[12]) also given 3mg/kg coluracetam twice daily resulted in significantly less cognitive disturbance (assessed by object recognition) although it was without effect on passive avoidance learning nor locomotor changes.[13]
Coluracetam appears to preserve and/or normalize cholinergic dysfunction in the presence of underactive of chemically impaired HACU, but there is no research to support an inherent cognitive boosting effect
3.2
Glutaminergic Neurotransmission
In cultured corticol neurons, coluracetam is able to reduce the excitotoxicity caused by either glutamate or calcium influx but is ineffective against nitric oxide donors.[14] Practical significance of this data is uncertain as the tests were conducted at 10µM, a higher than normal concentration for this molecule.[14]
Suggests protective effects, but this information may not be relevant due to the high concentration used
References
- ^Takashina K, Bessho T, Mori R, Kawai K, Eguchi J, Saito KMKC-231, a choline uptake enhancer: (3) Mode of action of MKC-231 in the enhancement of high-affinity choline uptakeJ Neural Transm.(2008 Jul)
- ^Bessho T, Takashina K, Eguchi J, Komatsu T, Saito KMKC-231, a choline-uptake enhancer: (1) long-lasting cognitive improvement after repeated administration in AF64A-treated ratsJ Neural Transm.(2008 Jul)
- ^Simon JR, Atweh S, Kuhar MJSodium-dependent high affinity choline uptake: a regulatory step in the synthesis of acetylcholineJ Neurochem.(1976 May)
- ^Yamamura HI, Snyder SHHigh affinity transport of choline into synaptosomes of rat brainJ Neurochem.(1973 Dec)
- ^Rodríguez-Puertas R, Pazos A, Zarranz JJ, Pascual JSelective cortical decrease of high-affinity choline uptake carrier in Alzheimer's disease: an autoradiographic study using 3H-hemicholinium-3J Neural Transm Park Dis Dement Sect.(1994)
- ^Rylett RJ, Ball MJ, Colhoun EHEvidence for high affinity choline transport in synaptosomes prepared from hippocampus and neocortex of patients with Alzheimer's diseaseBrain Res.(1983 Dec 19)
- ^Slotkin TA, Seidler FJ, Crain BJ, Bell JM, Bissette G, Nemeroff CBRegulatory changes in presynaptic cholinergic function assessed in rapid autopsy material from patients with Alzheimer disease: implications for etiology and therapyProc Natl Acad Sci U S A.(1990 Apr)
- ^Fisher A, Mantione CR, Abraham DJ, Hanin ILong-term central cholinergic hypofunction induced in mice by ethylcholine aziridinium ion (AF64A) in vivoJ Pharmacol Exp Ther.(1982 Jul)
- ^Takashina K, Bessho T, Mori R, Eguchi J, Saito KMKC-231, a choline uptake enhancer: (2) Effect on synthesis and release of acetylcholine in AF64A-treated ratsJ Neural Transm.(2008 Jul)
- ^Bessho T, Takashina K, Tabata R, Ohshima C, Chaki H, Yamabe H, Egawa M, Tobe A, Saito KEffect of the novel high affinity choline uptake enhancer 2-(2-oxopyrrolidin-1-yl)-N-(2,3-dimethyl-5,6,7,8-tetrahydrofuro{2,3-b} quinolin-4-yl)acetoamide on deficits of water maze learning in ratsArzneimittelforschung.(1996 Apr)
- ^Murai S, Saito H, Abe E, Masuda Y, Odashima J, Itoh TMKC-231, a choline uptake enhancer, ameliorates working memory deficits and decreased hippocampal acetylcholine induced by ethylcholine aziridinium ion in miceJ Neural Transm Gen Sect.(1994)
- ^Morris BJ, Cochran SM, Pratt JAPCP: from pharmacology to modelling schizophreniaCurr Opin Pharmacol.(2005 Feb)
- ^Shirayama Y, Yamamoto A, Nishimura T, Katayama S, Kawahara RSubsequent exposure to the choline uptake enhancer MKC-231 antagonizes phencyclidine-induced behavioral deficits and reduction in septal cholinergic neurons in ratsEur Neuropsychopharmacol.(2007 Sep)
- ^Akaike A, Maeda T, Kaneko S, Tamura YProtective effect of MKC-231, a novel high affinity choline uptake enhancer, on glutamate cytotoxicity in cultured cortical neuronsJpn J Pharmacol.(1998 Feb)