TY - JOUR
T1 - Pharmacological considerations for treating neuroinflammation with curcumin in Alzheimer's disease
AU - Zhou, Xian
AU - Venigalla, Madhuri
AU - Raju, Ritesh
AU - Münch, Gerald
PY - 2022
Y1 - 2022
N2 - Prof. Dr. Peter Riederer, the former Head of the Neurochemistry Department of the Psychiatry and Psychotherapy Clinic at the University of Würzburg (Germany), has been one of the pioneers of research into oxidative stress in Parkinson's and Alzheimer’s disease (AD). This review will outline how his scientific contribution to the field has opened a new direction for AD treatment beyond “plaques and tangles”. In the 1990s, Prof. Riederer was one of the first scientists who proposed oxidative stress and neuroinfammation as one of the major contributors to Alzheimer’s disease, despite the overwhelming support for the “amyloid-only” hypothesis at the time, which postulated that the sole and only cause of AD is β-amyloid. His group also highlighted the role of advanced glycation end products, sugar and dicarbonyl-derived protein modifcations, which crosslink proteins into insoluble aggregates and potent pro-infammatory activators of microglia. For the treatment of chronic neuroinfammation, he and his group suggested that the most appropriate drug class would be cytokine-suppressive anti-infammatory drugs (CSAIDs) which have a broader anti-infammatory action range than conventional non-steroidal anti-infammatory drugs. One of the most potent CSAIDs is curcumin, but it suffers from a variety of pharmacokinetic disadvantages including low bioavailability, which might have tainted many human clinical trials. Although a variety of oral formulations with increased bioavailability have been developed, curcumin’s absorption after oral delivery is too low to reach therapeutic concentrations in the micromolar range in the systemic circulation and the brain. This review will conclude with evidence that rectally applied suppositories might be the best alternatives to oral medications, as this route will be able to evade first-pass metabolism in the liver and achieve high concentrations of curcumin in plasma and tissues, including the brain.
AB - Prof. Dr. Peter Riederer, the former Head of the Neurochemistry Department of the Psychiatry and Psychotherapy Clinic at the University of Würzburg (Germany), has been one of the pioneers of research into oxidative stress in Parkinson's and Alzheimer’s disease (AD). This review will outline how his scientific contribution to the field has opened a new direction for AD treatment beyond “plaques and tangles”. In the 1990s, Prof. Riederer was one of the first scientists who proposed oxidative stress and neuroinfammation as one of the major contributors to Alzheimer’s disease, despite the overwhelming support for the “amyloid-only” hypothesis at the time, which postulated that the sole and only cause of AD is β-amyloid. His group also highlighted the role of advanced glycation end products, sugar and dicarbonyl-derived protein modifcations, which crosslink proteins into insoluble aggregates and potent pro-infammatory activators of microglia. For the treatment of chronic neuroinfammation, he and his group suggested that the most appropriate drug class would be cytokine-suppressive anti-infammatory drugs (CSAIDs) which have a broader anti-infammatory action range than conventional non-steroidal anti-infammatory drugs. One of the most potent CSAIDs is curcumin, but it suffers from a variety of pharmacokinetic disadvantages including low bioavailability, which might have tainted many human clinical trials. Although a variety of oral formulations with increased bioavailability have been developed, curcumin’s absorption after oral delivery is too low to reach therapeutic concentrations in the micromolar range in the systemic circulation and the brain. This review will conclude with evidence that rectally applied suppositories might be the best alternatives to oral medications, as this route will be able to evade first-pass metabolism in the liver and achieve high concentrations of curcumin in plasma and tissues, including the brain.
UR - http://hdl.handle.net/1959.7/uws:63326
U2 - 10.1007/s00702-022-02480-x
DO - 10.1007/s00702-022-02480-x
M3 - Article
SN - 0300-9564
VL - 129
SP - 755
EP - 771
JO - Journal of Neural Transmission
JF - Journal of Neural Transmission
IS - 45448
ER -