Abstract
Large conductance Ca2+‐activated K+ (BK) channels consist of pore‐forming α‐ and accessory β‐subunits. There are four β‐subunit subtypes (β1–β4), BK β1‐subunit is specific for smooth muscle cells (SMC). Reduced BK β1‐subunit expression is associated with SMC dysfunction in animal models of human disease, because downregulation of BK β1‐subunit reduces channel activity and increases SMC contractility. Several anti‐BK β1‐subunit antibodies are commercially available; however, the specificity of most antibodies has not been tested or confirmed in the tissues from BK β1‐subunit knockout (KO) mice. In this study, we tested the specificity and sensitivity of six commercially available antibodies from five manufacturers. We performed western blot analysis on BK β1‐subunit enriched tissues (mesenteric arteries and colons) and non‐SM tissue (cortex of kidney) from wild‐type (WT) and BK β1‐KO mice. We found that antibodies either detected protein bands of the appropriate molecular weight in tissues from both WT and BK β1‐KO mice or failed to detect protein bands at the appropriate molecular weight in tissues from WT mice, suggesting that these antibodies may lack specificity for the BK β1‐subunit. The absence of BK β1‐subunit mRNA expression in arteries, colons, and kidneys from BK β1‐KO mice was confirmed by RT‐PCR analysis. We conclude that these commercially available antibodies might not be reliable tools for studying BK β1‐subunit expression in murine tissues under the denaturing conditions that we have used. Data obtained using commercially available antibodies should be interpreted cautiously. Our studies underscore the importance of proper negative controls in western blot analyses.
Highlights
BK channels are expressed in many mammalian cell types and BK channel activity is an important regulator of cell excitability
The BK b1-subunit is largely smooth muscle cell (SMC) specific, it has been found in the distal nephron of murine kidney (Grimm et al 2007), BK b2- and b3-subunits are expressed in endocrine cells (Xia et al 1999; Braun et al 2008), while BK b4-subunits are expressed in neurons (Meera et al 2000) and in the distal nephron of the kidney
The antibodies evaluated in this study have been used previously in different tissues including blood vessels, tracheal smooth muscle cells, and kidney from rats, mice, and humans (Matharoo-Ball et al 2003; Chang et al 2006; Grimm et al 2007, 2009; Yang et al 2009, 2013; Albarwani et al 2010; Xie et al 2010; Zhang et al 2010; Howitt et al 2011; Ahn et al 2012; Loot et al 2012; Lu et al 2012; Evseev et al 2013; Kunduri et al 2013; Shi et al 2013a,b; Zheng et al 2013; Evanson et al 2014; Leo et al 2014; Nystoriak et al 2014; Pabbidi et al 2014; Yi et al 2014)
Summary
BK (large conductance Ca2+-activated K+) channels are expressed in many mammalian cell types and BK channel activity is an important regulator of cell excitability. The BK b1-subunit is largely smooth muscle cell (SMC) specific, it has been found in the distal nephron of murine kidney (Grimm et al 2007), BK b2- and b3-subunits are expressed in endocrine cells (Xia et al 1999; Braun et al 2008), while BK b4-subunits are expressed in neurons (Meera et al 2000) and in the distal nephron of the kidney Physiological Reports published by Wiley Periodicals, Inc. on behalf of the American Physiological Society and The Physiological Society
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