Serial positron emission tomography (PET) scans showed significan

Serial positron emission tomography (PET) scans showed significant increases in cortical fluorodeoxyglucose after treatment.[126] Because stem cells can be genetically modified to carry new genes and have high migratory capacity after brain Idasanutlin transplantation,[6, 11, 17] they could be used in place of fibroblasts that are known for their immobility following transplantation[43] for delivery of NGF to prevent degeneration of basal forebrain cholinergic neurons. In learning deficit AD model rats induced by okadaic acid injection, transplantation of rat NSCs infected with adenovirus-NGF produced cognitive performance.[127] In a recent study, we used human NSCs in place of rodent NSCs or human

fibroblasts to deliver NGF in learning deficit AD model rats. Intrahippocampal injection of ibotenic acid caused severe neuronal loss, resulting in learning and memory deficit.[128] NGF protein released by F3.NGF human NSCs in culture media is 10-fold over the control F3.NSCs at 1.2 μg/106 cells/day. Intra-hippocampal transplantation of F3.NGF cells was found

to express NGF and fully improved the learning and memory function of ibotenic learning deficit animals. Transplanted F3.NGF human NSCs were found all over the brain and differentiated learn more into neurons and astrocytes.[128] In another study, brain derived neurotrophic factor (BDNF), a member of the neurotrophin family, secreted by transplanted mouse NSCs was responsible in enhancing cognitive function in triple transgenic AD mice that express

pathogenic forms of amyloid precursor protein, presenilin and tau. In these animals cognition was improved without altering Aβ or tau pathology.[129] In other studies in experimental rats with nucleus basalis of Meynert (NBM) lesions induced by ibotenic acid, transplantation of mouse or rat neural precursor cells promoted behavioral recovery.[130, 131] In AD Staurosporine chemical structure patients, dysfunction of the presynaptic cholinergic system is one of the causes of cognitive disorders where decreased activity of choline acetyltransferase (ChAT), which is responsible for acetylcholine (ACh) synthesis, is observed.[132] To date, AD therapy has largely been based on small molecules designed to increase ACh concentration by inhibiting acetylcholinesterase.[133] Since therapies with these drugs is only palliative without potential protection against progressive tissue destruction, there is a need for effective therapies for patients with AD, and stem cell-based therapeutic approaches targeting AD should fulfill this requirement. We have recently generated a human NSC line over-expressing human ChAT gene and transplanted these F3.ChAT NSCs into the brain of rat AD models which was generated by intra-hippocampal injection of KA which resulted in severe neuronal loss and profound learning and memory deficit.

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