Literature DB >> 11032907

Tissue plasminogen activator requires plasminogen to modulate amyloid-beta neurotoxicity and deposition.

H M Tucker1, M Kihiko-Ehmann, S Wright, R E Rydel, S Estus.   

Abstract

Tissue plasminogen (plgn) activator (tPA) modulates neuronal death in models of stroke, excitotoxicity, and oxidative stress. Amyloid-beta (Abeta) appears central to Alzheimer's disease and is neurotoxic to neurons in vitro. Here, we evaluate tPA effects on Abeta toxicity. We report that tPA alone had no effect on Abeta toxicity. However, in combination with plgn, tPA reduced Abeta toxicity in a robust fashion. Moreover, the combined tPA and plgn treatment markedly inhibited Abeta accumulation. The addition of phenylmethylsulfonyl fluoride, a serine protease inhibitor, to a sample of tPA, plgn, and Abeta resulted in a marked reduction of Abeta degradation. We interpret the actions of tPA and plgn within the context of the ability of plasmin to degrade Abeta.

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Year:  2000        PMID: 11032907     DOI: 10.1046/j.1471-4159.2000.0752172.x

Source DB:  PubMed          Journal:  J Neurochem        ISSN: 0022-3042            Impact factor:   5.372


  35 in total

1.  Tissue plasminogen activator mediates amyloid-induced neurotoxicity via Erk1/2 activation.

Authors:  Manel G Medina; Maria Dolores Ledesma; Jorge E Domínguez; Miguel Medina; Delia Zafra; Francesc Alameda; Carlos G Dotti; Pilar Navarro
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Review 2.  Amyloid beta: structure, biology and structure-based therapeutic development.

Authors:  Guo-Fang Chen; Ting-Hai Xu; Yan Yan; Yu-Ren Zhou; Yi Jiang; Karsten Melcher; H Eric Xu
Journal:  Acta Pharmacol Sin       Date:  2017-07-17       Impact factor: 6.150

3.  Knockout of plasminogen activator inhibitor 1 gene reduces amyloid beta peptide burden in a mouse model of Alzheimer's disease.

Authors:  R-M Liu; T van Groen; A Katre; D Cao; I Kadisha; C Ballinger; L Wang; S L Carroll; L Li
Journal:  Neurobiol Aging       Date:  2009-07-14       Impact factor: 4.673

4.  Amorphous protein aggregates stimulate plasminogen activation, leading to release of cytotoxic fragments that are clients for extracellular chaperones.

Authors:  Patrick Constantinescu; Rebecca A Brown; Amy R Wyatt; Marie Ranson; Mark R Wilson
Journal:  J Biol Chem       Date:  2017-07-14       Impact factor: 5.157

5.  Phosphorylation of amyloid-β peptide at serine 8 attenuates its clearance via insulin-degrading and angiotensin-converting enzymes.

Authors:  Sathish Kumar; Sandesh Singh; Désirée Hinze; Michaele Josten; Hans-Georg Sahl; Martin Siepmann; Jochen Walter
Journal:  J Biol Chem       Date:  2012-01-20       Impact factor: 5.157

6.  PAI-1 antagonists: the promise and the peril.

Authors:  Douglas E Vaughan
Journal:  Trans Am Clin Climatol Assoc       Date:  2011

7.  Angiotensin-converting enzyme levels and activity in Alzheimer's disease: differences in brain and CSF ACE and association with ACE1 genotypes.

Authors:  Scott Miners; Emma Ashby; Shabnam Baig; Rachel Harrison; Hannah Tayler; Elizabeth Speedy; Jonathan A Prince; Seth Love; Patrick G Kehoe
Journal:  Am J Transl Res       Date:  2009-01-18       Impact factor: 4.060

Review 8.  Multifunctional roles of enolase in Alzheimer's disease brain: beyond altered glucose metabolism.

Authors:  D Allan Butterfield; Miranda L Bader Lange
Journal:  J Neurochem       Date:  2009-09-23       Impact factor: 5.372

9.  Increased expression of cholesterol transporter ABCA1 is highly correlated with severity of dementia in AD hippocampus.

Authors:  Afia Akram; James Schmeidler; Pavel Katsel; Patrick R Hof; Vahram Haroutunian
Journal:  Brain Res       Date:  2010-01-14       Impact factor: 3.252

Review 10.  Current concepts in therapeutic strategies targeting cognitive decline and disease modification in Alzheimer's disease.

Authors:  J Steven Jacobsen; Peter Reinhart; Menelas N Pangalos
Journal:  NeuroRx       Date:  2005-10
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