The authentic subunit compositions of neuronal K+ channels purified from bovine brain were analyzed using a monoclonal antibody (mAb 5), reactive exclusively with the Kv1.2 subunit of the latter and polyclonal antibodies specific for fusion proteins containing C-terminal regions of four mammalian Kv proteins. Western blotting of the K+ channels isolated from several brain regions, employing the selective blocker alpha-dendrotoxin (alpha-DTX), revealed the presence in each of four different Kvs. Variable amounts of Kv1.1 and 1.4 subunits were observed in the K+ channels purified from cerebellum, corpus striatum, hippocampus, cerebral cortex, and brain stem; on the other hand, contents of Kv1.6 and 1.2 subunits appeared uniform throughout. Each Kv-specific antibody precipitated a different proportion (anti-Kv1.2 > 1.1 >> 1.6 > 1.4) of the channels detectable with radioiodinated alpha-DTX in every brain region, consistent with a widespread distribution of these oligomeric subtypes. Such heterooligomeric combinations were further documented by the lack of additivity upon their precipitation with a mixture of antibodies to Kv1.1 and Kv1.2; moreover, cross-blotting of the multimers precipitated by mAb 5 showed that they contain all four Kv proteins. Collectively, these findings demonstrate that subtypes of alpha-DTX-susceptible K+ channels are prevalent throughout mammalian brain which are composed of different Kv proteins assembled in complexes, shown previously to also contain auxiliary beta-subunits [Parcej, D. N., Scott, V. E. S., & Dolly, J.O. (1992) Biochemistry 31, 11084-11088].
Seven monoclonal antibodies raised against alpha-dendrotoxin-sensitive K+ channels, purified from bovine cerebral cortex, recognize these proteins in their native or denatured states, via interaction with the alpha- but not the beta-subunit. This finding, together with a similar observation made with polyclonal antibodies, shows that the latter is a distinct protein and not a proteolytic fragment of the larger subunit. Also, coimmunoprecipitation of alpha- and beta-subunits provides further evidence that both are tightly associated constituents of the K+ channel complexes. At least three isoforms of the K+ channel alpha-subunit are distinguishable by immunoblotting of a detergent extract of synaptic membranes with mAb 5. Likewise, multiple forms are also detectable in the purified protein with mAb 5 although deglycosylation, which does not alter reactivity with any of the mAbs, was required to achieve adequate electrophoretic resolution. These results confirm the proposal that variants of this K+ channel group, known to exist in the nervous system, are heterooligomeric complexes of alpha- and beta-subunits. Although different areas of rat brain contain proteins of similar sizes reactive with mAb 5, these are absent from heart, liver, pancreas, kidney, testes, and spleen, highlighting the selectivity of this antibody.
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