Examining the potential of anti-A(beta) antibodies as Alzheimer's therapeutics

Alzheimer’s disease results from an accumulation of aggregated amyloid beta peptide into oligomeric forms. Soluble oligomers are neurotoxic species, which are believed to be the pathophysiological cause of Alzheimer’s neurodegeneration. Amyloid β species (Aβ) are formed via normal physiological cl...

Full description

Bibliographic Details
Main Author: Pham, Sean
Language:en_US
Published: 2016
Subjects:
Online Access:https://hdl.handle.net/2144/14595
id ndltd-bu.edu-oai-open.bu.edu-2144-14595
record_format oai_dc
spelling ndltd-bu.edu-oai-open.bu.edu-2144-145952019-03-28T06:39:24Z Examining the potential of anti-A(beta) antibodies as Alzheimer's therapeutics Pham, Sean Molecular biology Alzheimer’s disease results from an accumulation of aggregated amyloid beta peptide into oligomeric forms. Soluble oligomers are neurotoxic species, which are believed to be the pathophysiological cause of Alzheimer’s neurodegeneration. Amyloid β species (Aβ) are formed via normal physiological cleavage of amyloid precursor protein by β and γ secretases. Cleaved isoforms aggregate further to form oligomeric configurations of Αβ peptide. To target toxic soluble Aβ oligomers, monoclonal antibodies have been synthesized. Experimental analysis demonstrates the ability of these antibodies to recognize synthetic and endogenous oligomers. In transgenic mice designed to overexpress oligomeric isoforms of Aβ, the antibodies were able to reduce the cerebral amyloid load with proceeding improvements in cognitive abilities. However, large-scale clinical trials corroborated results indicating diminished amyloid load, but failed to produce observable improvements in clinical outcome in patients with Alzheimer’s disease. Simply put, the removal of amyloidogenic species was insufficient in alleviating the associated neurodegeneration and elicited no improvement in cognitive ability, suggesting that Aβ might not be the responsible pathogen in Alzheimer’s. The successes of antibodies in in vitro and transgenic mice studies suggest the potential of antibodies in the treatment of Alzheimer’s, but the inability of these drugs to produce marked improvements in clinical trials questions the role of amyloid in the pathophysiology of the disease. 2016-02-25T14:39:40Z 2016-02-25T14:39:40Z 2016 2016-02-17T20:20:00Z Thesis/Dissertation https://hdl.handle.net/2144/14595 en_US Attribution-NonCommercial-NoDerivatives 4.0 International http://creativecommons.org/licenses/by-nc-nd/4.0/
collection NDLTD
language en_US
sources NDLTD
topic Molecular biology
spellingShingle Molecular biology
Pham, Sean
Examining the potential of anti-A(beta) antibodies as Alzheimer's therapeutics
description Alzheimer’s disease results from an accumulation of aggregated amyloid beta peptide into oligomeric forms. Soluble oligomers are neurotoxic species, which are believed to be the pathophysiological cause of Alzheimer’s neurodegeneration. Amyloid β species (Aβ) are formed via normal physiological cleavage of amyloid precursor protein by β and γ secretases. Cleaved isoforms aggregate further to form oligomeric configurations of Αβ peptide. To target toxic soluble Aβ oligomers, monoclonal antibodies have been synthesized. Experimental analysis demonstrates the ability of these antibodies to recognize synthetic and endogenous oligomers. In transgenic mice designed to overexpress oligomeric isoforms of Aβ, the antibodies were able to reduce the cerebral amyloid load with proceeding improvements in cognitive abilities. However, large-scale clinical trials corroborated results indicating diminished amyloid load, but failed to produce observable improvements in clinical outcome in patients with Alzheimer’s disease. Simply put, the removal of amyloidogenic species was insufficient in alleviating the associated neurodegeneration and elicited no improvement in cognitive ability, suggesting that Aβ might not be the responsible pathogen in Alzheimer’s. The successes of antibodies in in vitro and transgenic mice studies suggest the potential of antibodies in the treatment of Alzheimer’s, but the inability of these drugs to produce marked improvements in clinical trials questions the role of amyloid in the pathophysiology of the disease.
author Pham, Sean
author_facet Pham, Sean
author_sort Pham, Sean
title Examining the potential of anti-A(beta) antibodies as Alzheimer's therapeutics
title_short Examining the potential of anti-A(beta) antibodies as Alzheimer's therapeutics
title_full Examining the potential of anti-A(beta) antibodies as Alzheimer's therapeutics
title_fullStr Examining the potential of anti-A(beta) antibodies as Alzheimer's therapeutics
title_full_unstemmed Examining the potential of anti-A(beta) antibodies as Alzheimer's therapeutics
title_sort examining the potential of anti-a(beta) antibodies as alzheimer's therapeutics
publishDate 2016
url https://hdl.handle.net/2144/14595
work_keys_str_mv AT phamsean examiningthepotentialofantiabetaantibodiesasalzheimerstherapeutics
_version_ 1719008035376988160