, 1998, Chen et al , 1999, Ichijo et al , 1997, Kanamoto et al ,

, 1998, Chen et al., 1999, Ichijo et al., 1997, Kanamoto et al., 2000, Noguchi et al., 2008, Saitoh et al., 1998, Tobiume et al., 2001, Wang et al., 1999 and Wendt et al., 1994), cytokine secretion(Matsuzawa et al., 2005) and cell differentiation (Sayama et al., 2001 and Takeda et al., 2000). ASK1 is activated in response to various stresses, including oxidative www.selleckchem.com/products/Staurosporine.html stress, endoplasmic reticulum (ER) stress (Hattori et al., 2009, Matsukawa et al., 2004 and Takeda et al., 2003). Several studies have demonstrated that ASK1 overexpression induces

apoptosis in various cell types (Chang et al., 1998 and Saitoh et al., 1998). Ischemic stroke leads to disruption of the blood–brain barrier (BBB), which subsequently causes vasogenic edema (Unterberg et al., 2004) and cytotoxic edema (Loreto and Reggio, 2010, Nag et al., 2009 and Simard et al., 2007), with the latter characterized as swelling of the astrocytes and neuronal dendrites (Risher et al., 2009). Cytotoxic edema occurs shortly after ischemic onset and is the results of translocation of interstitial water into the intracellular compartment (Betz et al., 1989 and Young et al., 1987). Vasogenic edema disrupts cerebrovascular endothelial tight junctions, leading to increased permeability to albumin and other plasma proteins (Unterberg et

al., 2004), and elevated intracranial pressure (Nag et al., 2009). Finally, vasogenic edema results Sodium butyrate in water accumulation in

damaged brain areas (Nag et al., 2009 and Yang and Rosenberg, 2011). Reperfusion after occlusion induces overpressure accompanied by shear stress (Hirt RG7204 ic50 et al., 2009 and Ribeiro et al., 2006) and leads to further entry of water through endothelial cells, resulting in brain swelling (Hirt et al., 2009 and Ribeiro Mde et al., 2006) and further increases BBB permeability (Hirt et al., 2009 and Strbian et al., 2008). According to previous studies, edema and cerebral infarction are especially exacerbated during ischemia/reperfusion (I/R) (Bleilevens et al., 2013). Hypoxic (low level of oxygen) and ischemic (low levels of oxygen and glucose) states caused by stroke also activate ASK1 (Bitto et al., 2010, Harding et al., 2010 and Kwon et al., 2005). One study demonstrated that the increased ASK1 expression triggers apoptotic cell death after IR, whereas ASK1-small interference RNA (siRNA) attenuates ASK1 upregulation and reduces infarction in ischemic brain (Kim et al., 2011). Another study reported that anti-ASK1 short hairpin RNA (shRNA) suppresses ASK1 in the oxidative stress state induced by cerebral I/R (An et al., 2013). Several studies suggested that an ischemic state leads to dissociation of thioredoxin (Trx) from ASK1 by reactive oxygen species (ROS) generation and induces the activation of ASK1-mediated apoptosis pathways (e.g., the p38 pathway) (Ke and Costa, 2006).

Leave a Reply

Your email address will not be published. Required fields are marked *

*

You may use these HTML tags and attributes: <a href="" title=""> <abbr title=""> <acronym title=""> <b> <blockquote cite=""> <cite> <code> <del datetime=""> <em> <i> <q cite=""> <strike> <strong>