Literature DB >> 27349988

Aβ-Degrading Proteases: Therapeutic Potential in Alzheimer Disease.

Malcolm A Leissring1.   

Abstract

The amyloid β-protein (Aβ) plays an indispensable role in the pathogenesis of Alzheimer disease (AD). Aβ is subject to proteolytic degradation by a diverse array of peptidases and proteinases, known collectively as Aβ-degrading proteases (AβDPs). A growing number of AβDPs have been identified that impact Aβ powerfully and in a surprising variety of ways. As such, AβDPs hold considerable therapeutic potential for the treatment and/or prevention of AD. Here, we critically review the relative merits of therapeutic strategies targeting AβDPs compared with current Aβ-lowering strategies focused on immunotherapies and pharmacological modulation of Aβ-producing enzymes. Several innovative advances have increased considerably the feasibility of delivering AβDPs to the brain or enhancing their activity in a non-invasive manner. We argue that therapies targeting AβDPs offer numerous potential advantages that should be explored through continued research into this promising field.

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Year:  2016        PMID: 27349988     DOI: 10.1007/s40263-016-0364-1

Source DB:  PubMed          Journal:  CNS Drugs        ISSN: 1172-7047            Impact factor:   5.749


  91 in total

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2.  Targeted delivery of proteins across the blood-brain barrier.

Authors:  Brian J Spencer; Inder M Verma
Journal:  Proc Natl Acad Sci U S A       Date:  2007-04-26       Impact factor: 11.205

3.  Somatostatin regulates brain amyloid beta peptide Abeta42 through modulation of proteolytic degradation.

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Review 4.  Cerebrovascular smooth muscle cell surface fibrillar A beta. Alteration of the proteolytic environment in the cerebral vessel wall.

Authors:  W E Van Nostrand; J Melchor; M Wagner; J Davis
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5.  2015 Alzheimer's disease facts and figures.

Authors: 
Journal:  Alzheimers Dement       Date:  2015-03       Impact factor: 21.566

Review 6.  Clearance systems in the brain-implications for Alzheimer disease.

Authors:  Jenna M Tarasoff-Conway; Roxana O Carare; Ricardo S Osorio; Lidia Glodzik; Tracy Butler; Els Fieremans; Leon Axel; Henry Rusinek; Charles Nicholson; Berislav V Zlokovic; Blas Frangione; Kaj Blennow; Joël Ménard; Henrik Zetterberg; Thomas Wisniewski; Mony J de Leon
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Review 7.  The amyloid hypothesis of Alzheimer's disease: progress and problems on the road to therapeutics.

Authors:  John Hardy; Dennis J Selkoe
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Review 8.  BACE1 structure and function in health and Alzheimer's disease.

Authors:  Sarah L Cole; Robert Vassar
Journal:  Curr Alzheimer Res       Date:  2008-04       Impact factor: 3.498

9.  Enhanced clearance of Abeta in brain by sustaining the plasmin proteolysis cascade.

Authors:  J Steven Jacobsen; Thomas A Comery; Robert L Martone; Hassan Elokdah; David L Crandall; Aram Oganesian; Suzan Aschmies; Yolanda Kirksey; Cathleen Gonzales; Jane Xu; Hua Zhou; Kevin Atchison; Erik Wagner; Margaret M Zaleska; Indranil Das; Robert L Arias; Jonathan Bard; David Riddell; Stephen J Gardell; Magid Abou-Gharbia; Albert Robichaud; Ronald Magolda; George P Vlasuk; Thorir Bjornsson; Peter H Reinhart; Menelas N Pangalos
Journal:  Proc Natl Acad Sci U S A       Date:  2008-06-16       Impact factor: 11.205

Review 10.  Regulation of distinct pools of amyloid β-protein by multiple cellular proteases.

Authors:  Malcolm A Leissring; Anthony J Turner
Journal:  Alzheimers Res Ther       Date:  2013-08-13       Impact factor: 6.982
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  14 in total

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Authors:  Shaowu Cheng; Willayat Y Wani; David A Hottman; Angela Jeong; Dongfeng Cao; Kyle J LeBlanc; Paul Saftig; Jianhua Zhang; Ling Li
Journal:  J Neurochem       Date:  2017-05-26       Impact factor: 5.372

Review 2.  Transcriptional Effects of ApoE4: Relevance to Alzheimer's Disease.

Authors:  Veena Theendakara; Clare A Peters-Libeu; Dale E Bredesen; Rammohan V Rao
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3.  Suppression of Fli-1 protects against pericyte loss and cognitive deficits in Alzheimer's disease.

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Journal:  Mol Ther       Date:  2022-01-14       Impact factor: 12.910

4.  Extra-virgin olive oil ameliorates cognition and neuropathology of the 3xTg mice: role of autophagy.

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5.  Neuroprotective mechanism of Kai Xin San: upregulation of hippocampal insulin-degrading enzyme protein expression and acceleration of amyloid-beta degradation.

Authors:  Na Wang; Yong-Ming Jia; Bo Zhang; Di Xue; Maharjan Reeju; Yan Li; Shu-Ming Huang; Xue-Wei Liu
Journal:  Neural Regen Res       Date:  2017-04       Impact factor: 5.135

6.  Oleanolic Acid Ameliorates Aβ25-35 Injection-induced Memory Deficit in Alzheimer's Disease Model Rats by Maintaining Synaptic Plasticity.

Authors:  Kai Wang; Weiming Sun; Linlin Zhang; Wei Guo; Jiachun Xu; Shuang Liu; Zhen Zhou; Yulian Zhang
Journal:  CNS Neurol Disord Drug Targets       Date:  2018       Impact factor: 4.388

Review 7.  Molecular Mechanism of Autophagy: Its Role in the Therapy of Alzheimer's Disease.

Authors:  Yuan Zhao; Yidan Zhang; Jian Zhang; Xiangjian Zhang; Guofeng Yang
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Review 8.  Noradrenergic Dysfunction in Alzheimer's and Parkinson's Diseases-An Overview of Imaging Studies.

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Journal:  Front Aging Neurosci       Date:  2018-05-01       Impact factor: 5.750

9.  Blood-brain barrier-associated pericytes internalize and clear aggregated amyloid-β42 by LRP1-dependent apolipoprotein E isoform-specific mechanism.

Authors:  Qingyi Ma; Zhen Zhao; Abhay P Sagare; Yingxi Wu; Min Wang; Nelly Chuqui Owens; Philip B Verghese; Joachim Herz; David M Holtzman; Berislav V Zlokovic
Journal:  Mol Neurodegener       Date:  2018-10-19       Impact factor: 14.195

10.  Kai-Xin-San, a Chinese Herbal Decoction, Accelerates the Degradation of β-Amyloid by Enhancing the Expression of Neprilysin in Rats.

Authors:  Na Wang; Yongming Jia; Bo Zhang; Yan Li; Ghulam Murtaza; Shuming Huang; Xuewei Liu
Journal:  Evid Based Complement Alternat Med       Date:  2020-02-21       Impact factor: 2.629
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