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dc.contributor.author Crul, Timothy
dc.contributor.author Tóth, Noémi
dc.contributor.author Piotto S
dc.contributor.author Literati-Nagy, Péter
dc.contributor.author Tory K
dc.contributor.author Haldimann P
dc.contributor.author Kalmar B
dc.contributor.author Greensmith L
dc.contributor.author Török, Zsolt
dc.contributor.author Balogh, Gábor
dc.contributor.author Gombos, Imre
dc.contributor.author Campana F
dc.contributor.author Concilio S
dc.contributor.author Gallyas, Ferenc
dc.contributor.author Nagy G
dc.contributor.author Berente, Zoltán
dc.contributor.author Güngör, Burcin
dc.contributor.author Péter, Mária
dc.contributor.author Glatz, Attila
dc.contributor.author Hunya, Ákos
dc.contributor.author Literáti-Nagy, Zsuzsanna
dc.contributor.author Vígh, László Jr.
dc.contributor.author Hoogstra-Berends F
dc.contributor.author Heeres A
dc.contributor.author Kuipers I
dc.contributor.author Loen L
dc.contributor.author Seerden JP
dc.contributor.author Zhang D
dc.contributor.author Meijering RA
dc.contributor.author Henning RH
dc.contributor.author Brundel BJ
dc.contributor.author Kampinga HH
dc.contributor.author Korányi, László
dc.contributor.author Szilvássy, Zoltán
dc.contributor.author Mandl, József
dc.contributor.author Sümegi, Balázs
dc.contributor.author Febbraio MA
dc.contributor.author Horváth, Ibolya
dc.contributor.author Hooper PL
dc.contributor.author Vigh, László
dc.date.accessioned 2017-06-21T13:54:57Z
dc.date.available 2017-06-21T13:54:57Z
dc.date.issued 2013
dc.identifier 84876716005
dc.identifier.citation pagination=309-346; journalVolume=19; journalIssueNumber=3; journalTitle=CURRENT PHARMACEUTICAL DESIGN;
dc.identifier.uri http://repo.lib.semmelweis.hu//handle/123456789/2397
dc.identifier.uri doi:10.2174/1381612811306030309
dc.description.abstract According to the "membrane sensor" hypothesis, the membranes physical properties and microdomain organization play an initiating role in the heat shock response. Clinical conditions such as cancer, diabetes and neurodegenerative diseases are all coupled with specific changes in the physical state and lipid composition of cellular membranes and characterized by altered heat shock protein levels in cells suggesting that these "membrane defects" can cause suboptimal hsp-gene expression. Such observations provide a new rationale for the introduction of novel, heat shock protein modulating drug candidates. Intercalating compounds can be used to alter membrane properties and by doing so normalize dysregulated expression of heat shock proteins, resulting in a beneficial therapeutic effect for reversing the pathological impact of disease. The membrane (and lipid) interacting hydroximic acid (HA) derivatives discussed in this review physiologically restore the heat shock protein stress response, creating a new class of "membrane-lipid therapy" pharmaceuticals. The diseases that HA derivatives potentially target are diverse and include, among others, insulin resistance and diabetes, neuropathy, atrial fibrillation, and amyotrophic lateral sclerosis. At a molecular level HA derivatives are broad spectrum, multi-target compounds as they fluidize yet stabilize membranes and remodel their lipid rafts while otherwise acting as PARP inhibitors. The HA derivatives have the potential to ameliorate disparate conditions, whether of acute or chronic nature. Many of these diseases presently are either untreatable or inadequately treated with currently available pharmaceuticals. Ultimately, the HA derivatives promise to play a major role in future pharmacotherapy.
dc.relation.ispartof urn:issn:1381-6128
dc.title Hydroximic Acid Derivatives: Pleiotrophic Hsp Co-Inducers Restoring Homeostasis and Robustness
dc.type Journal Article
dc.date.updated 2015-11-20T10:01:08Z
dc.language.rfc3066 en
dc.identifier.mtmt 2096112
dc.identifier.wos 000316446800002
dc.identifier.pubmed 22920902
dc.contributor.department SE/AOK/I/Orvosi Vegytani, Molekuláris Biológiai és Patobiokémiai Intézet
dc.contributor.institution Semmelweis Egyetem


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