TY - JOUR
T1 - Investigation of the Experimental Pharmacokinetics of the Bis-Chlorinated Bispyridinium Mono-aldoxime Cholinesterase Reactivator K-868 in Rats
AU - Kalász, Huba
AU - Tekes, Kornélia
AU - Bátor, György
AU - Adeghate, Jennifer
AU - Adeghate, Ernest
AU - Darvas, Ferenc
AU - Fűrész, József
AU - Karvaly, Gellért
N1 - Publisher Copyright:
© 2021 Kalász et al.
PY - 2021
Y1 - 2021
N2 - The widespread use of organophosphorus compounds in agriculture and their existence in some military arsenals present continuous threats. Quaternary bis-pyridinium aldoximes are potent, highly polar cholinesterase reactivators and the most intensively studied candidate antidotes against poisoning with organophosphorus compounds. Objective: The in vivo experimental pharmacokinetic properties of K-868, a novel bis-chlorinated, bis-pyridinium mono-aldoxime are detailed and put in context with regard to similar compounds described earlier. Methods: Rats received 30 µmol K-868 i.m. and were sacrificed at various time points following treatment. Blood, cerebrospinal fluid and tear were collected, while the brains, eyes, kidneys, livers, lungs and testes were removed, dissected and homogenized. K-868 concentrations were determined using high performance liquid chromatography with ultraviolet absorption detection. Results: K-868 was detected in the eyes, kidneys, lungs and tear within 5 minutes in maximal serum concentrations attained 15 minutes following administration. Elimination was slow for K-868 which remained detectable at 120 minutes in the blood and the kidneys, and at 60 minutes in the eyes, lungs and tear following its administration. Nevertheless, its distribution was overall poor with areas under the 120-minute concentration curves (AUC120 ) showing close similarity in the blood and the kidneys, while reaching just approximately 5% of serum AUC120 in the eyes and lungs. Conclusion: K-868 is a potent candidate antidote against organophosphate poisoining with a prolonged presence in the circulation.
AB - The widespread use of organophosphorus compounds in agriculture and their existence in some military arsenals present continuous threats. Quaternary bis-pyridinium aldoximes are potent, highly polar cholinesterase reactivators and the most intensively studied candidate antidotes against poisoning with organophosphorus compounds. Objective: The in vivo experimental pharmacokinetic properties of K-868, a novel bis-chlorinated, bis-pyridinium mono-aldoxime are detailed and put in context with regard to similar compounds described earlier. Methods: Rats received 30 µmol K-868 i.m. and were sacrificed at various time points following treatment. Blood, cerebrospinal fluid and tear were collected, while the brains, eyes, kidneys, livers, lungs and testes were removed, dissected and homogenized. K-868 concentrations were determined using high performance liquid chromatography with ultraviolet absorption detection. Results: K-868 was detected in the eyes, kidneys, lungs and tear within 5 minutes in maximal serum concentrations attained 15 minutes following administration. Elimination was slow for K-868 which remained detectable at 120 minutes in the blood and the kidneys, and at 60 minutes in the eyes, lungs and tear following its administration. Nevertheless, its distribution was overall poor with areas under the 120-minute concentration curves (AUC120 ) showing close similarity in the blood and the kidneys, while reaching just approximately 5% of serum AUC120 in the eyes and lungs. Conclusion: K-868 is a potent candidate antidote against organophosphate poisoining with a prolonged presence in the circulation.
KW - Blood-brain barrier
KW - Cholinesterase
KW - K-868
KW - Organophosphate poisoning
KW - Pharmacokinetics
KW - Pyridinium aldoxime
UR - http://www.scopus.com/inward/record.url?scp=85124743155&partnerID=8YFLogxK
UR - http://www.scopus.com/inward/citedby.url?scp=85124743155&partnerID=8YFLogxK
U2 - 10.2174/1874104502015010017
DO - 10.2174/1874104502015010017
M3 - Article
AN - SCOPUS:85124743155
SN - 1874-1045
VL - 15
SP - 17
EP - 27
JO - Open Medicinal Chemistry Journal
JF - Open Medicinal Chemistry Journal
ER -