Tacrine (1) was the first acetylcholinesterase inhibitor (AChEI) introduced in therapy for the treatment of Alzheimer’s disease (AD), but similarly to the most recent approved AChEIs and memantine, an N-methyl-D-aspartate receptor (NMDAR) antagonist, it does not represent an effective drug in halting the progression of AD. The continuous research in this field has contributed to delineate AD as a multifactorial syndrome with several biological targets involved in its etiology. On these bases, the development of new effective therapeutics becomes crucial and the design of molecules that address more than one specific AD target should represent thus a succeeded strategy for AD treatment. This review will focus on and summarize multifunctional 1 derivatives starting from our last paper published on the same topic in 2010. In the last three years, the design and synthesis of 1 homo- and heterodimers, as well as of 1-hybrid structures for AD therapy, was aimed mainly to discover safer drugs, with decreased hepatotoxicity in comparison to 1, taking also into account the multifactorial pathogenesis of the disease. Most of these new hetero/homo-dimers and/or hybrids of 1, although addressed mainly to acetylcholinesterase (AChE) and A beta aggregation inhibition, are able to hit additional targets relevant to AD, among which, beta-secretase (BACE1), reactive oxygen species (ROS), calcium channels, NMDAR and M1-muscarinic receptors.
Anna Minarini, Andrea Milelli, Elena Simoni, Michela Rosini, Maria Laura Bolognesi, Chiara Marchetti, et al. (2013). Multifunctional Tacrine Derivatives in Alzheimer’s Disease. CURRENT TOPICS IN MEDICINAL CHEMISTRY, 13, 1771-1786.
Multifunctional Tacrine Derivatives in Alzheimer’s Disease
MINARINI, ANNA;MILELLI, ANDREA;SIMONI, ELENA;ROSINI, MICHELA;BOLOGNESI, MARIA LAURA;MARCHETTI, CHIARA;TUMIATTI, VINCENZO
2013
Abstract
Tacrine (1) was the first acetylcholinesterase inhibitor (AChEI) introduced in therapy for the treatment of Alzheimer’s disease (AD), but similarly to the most recent approved AChEIs and memantine, an N-methyl-D-aspartate receptor (NMDAR) antagonist, it does not represent an effective drug in halting the progression of AD. The continuous research in this field has contributed to delineate AD as a multifactorial syndrome with several biological targets involved in its etiology. On these bases, the development of new effective therapeutics becomes crucial and the design of molecules that address more than one specific AD target should represent thus a succeeded strategy for AD treatment. This review will focus on and summarize multifunctional 1 derivatives starting from our last paper published on the same topic in 2010. In the last three years, the design and synthesis of 1 homo- and heterodimers, as well as of 1-hybrid structures for AD therapy, was aimed mainly to discover safer drugs, with decreased hepatotoxicity in comparison to 1, taking also into account the multifactorial pathogenesis of the disease. Most of these new hetero/homo-dimers and/or hybrids of 1, although addressed mainly to acetylcholinesterase (AChE) and A beta aggregation inhibition, are able to hit additional targets relevant to AD, among which, beta-secretase (BACE1), reactive oxygen species (ROS), calcium channels, NMDAR and M1-muscarinic receptors.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
