PURPOSE: Heat shock protein-27 (HSP-27) belongs to the group of small heat shock proteins that become induced in response to various pathologic conditions. HSP-27 has been shown to protect cells and subcellular structures, particularly mitochondria, and serves as a carrier for estradiol. It is a reliable marker for tissues affected by oxidative stress. Oxidative stress and related cellular defence mechanisms are currently thought to play a major role during experimentally induced epileptic neuropathology. We addressed the question whether HSP-27 becomes induced in the neocortex resected from patients with pharmacoresistant epilepsy. METHODS: Human epileptic temporal neocortex was obtained during neurosurgery, and control tissue was obtained at autopsy from subjects without known neurologic diseases. The tissues were either frozen for Western blot analysis or fixed in Zamboni's fixative for the topographic detection of HSP-27 at the cellular level by means of immunohistochemistry. RESULTS: HSP-27 was highly expressed in all epilepsy specimens and in the cortex of a patient who died in the final stage of multiple sclerosis (positive control), whereas only low amounts of HSP-27 were detectable in control brains. In epilepsy patients, HSP-27 was present in astrocytes and in the walls of blood vessels. The intracortical distribution patterns varied strongly among the epilepsy specimens. CONCLUSIONS: These results demonstrate that HSP-27 becomes induced in response to epileptic pathology. Although the functional aspects of HSP-27 induction during human epilepsy have yet to be elucidated, it can be concluded that HSP-27 is a marker for cortical regions in which a stress response has been caused by seizures.
PURPOSE:Heat shock protein-27 (HSP-27) belongs to the group of small heat shock proteins that become induced in response to various pathologic conditions. HSP-27 has been shown to protect cells and subcellular structures, particularly mitochondria, and serves as a carrier for estradiol. It is a reliable marker for tissues affected by oxidative stress. Oxidative stress and related cellular defence mechanisms are currently thought to play a major role during experimentally induced epileptic neuropathology. We addressed the question whether HSP-27 becomes induced in the neocortex resected from patients with pharmacoresistant epilepsy. METHODS:Humanepileptic temporal neocortex was obtained during neurosurgery, and control tissue was obtained at autopsy from subjects without known neurologic diseases. The tissues were either frozen for Western blot analysis or fixed in Zamboni's fixative for the topographic detection of HSP-27 at the cellular level by means of immunohistochemistry. RESULTS:HSP-27 was highly expressed in all epilepsy specimens and in the cortex of a patient who died in the final stage of multiple sclerosis (positive control), whereas only low amounts of HSP-27 were detectable in control brains. In epilepsypatients, HSP-27 was present in astrocytes and in the walls of blood vessels. The intracortical distribution patterns varied strongly among the epilepsy specimens. CONCLUSIONS: These results demonstrate that HSP-27 becomes induced in response to epileptic pathology. Although the functional aspects of HSP-27 induction during humanepilepsy have yet to be elucidated, it can be concluded that HSP-27 is a marker for cortical regions in which a stress response has been caused by seizures.
Authors: Mark William Lopes; Flávia Mahatma Schneider Soares; Nelson de Mello; Jean Costa Nunes; Fabiano Mendes de Cordova; Roger Walz; Rodrigo Bainy Leal Journal: Neurochem Res Date: 2012-05-22 Impact factor: 3.996
Authors: Karen Tse; Dean Hammond; Deborah Simpson; Robert J Beynon; Edward Beamer; Michael Tymianski; Michael W Salter; Graeme J Sills; Thimmasettappa Thippeswamy Journal: J Neurosci Res Date: 2019-05-15 Impact factor: 4.164
Authors: Antonella Marino Gammazza; Roberto Colangeli; Gergely Orban; Massimo Pierucci; Giancarlo Di Gennaro; Margherita Lo Bello; Alfredo D'Aniello; Fabio Bucchieri; Cristoforo Pomara; Mario Valentino; Richard Muscat; Arcangelo Benigno; Giovanni Zummo; Everly Conway de Macario; Francesco Cappello; Giuseppe Di Giovanni; Alberto J L Macario Journal: Sci Rep Date: 2015-03-24 Impact factor: 4.379