Species-specific Differences among KCNMB3 BK {beta}3 Auxiliary Subunits: Some {beta}3 N-terminal Variants May Be Primate-specific Subunits

doi:10.1085/jgp.200809969

Axon Instruments microelectrode amplifiers

Published online June 30, 2008
doi:10.1085/jgp.200809969
The Journal of General Physiology, Vol. 132, No. 1, 115-129
The Rockefeller University Press, 0022-1295 $30.00
© 2008 Zeng et al.

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Species-specific Differences among KCNMB3 BK β3 Auxiliary Subunits: Some β3 N-terminal Variants May Be Primate-specific Subunits

Xuhui Zeng, Xiao-Ming Xia, and Christopher J. Lingle

Department of Anesthesiology, Washington University School of Medicine, St. Louis, MO 63110

Correspondence to Chris Lingle: clingle{at}morpheus.wustl.edu

The KCNMB3 gene encodes one of a family of four auxiliary βsubunits found in the mammalian genome that associate with Slo1 ${alpha}$ subunits and regulate BK channel function. In humans, the KCNMB3gene contains four N-terminal alternative exons that producefour functionally distinct β3 subunits, β3a–d.Three variants, β3a–c, exhibit kinetically distinctinactivation behaviors. Since investigation of the physiologicalroles of BK auxiliary subunits will depend on studies in rodents,here we have determined the identity and functional propertiesof mouse β3 variants. Whereas β1, β2, and β4subunits exhibit 83.2%, 95.3%, and 93.8% identity between mouseand human, the mouse β3 subunit, excluding N-terminal splicevariants, shares only 62.8% amino acid identity with its humancounterpart. Based on an examination of the mouse genome andscreening of mouse cDNA libraries, here we have identified onlytwo N-terminal candidates, β3a and β3b, of the fourfound in humans. Both human and mouse β3a subunits producea characteristic use-dependent inactivation. Surprisingly, whereasthe hβ3b exhibits rapid inactivation, the putative mβ3bdoes not inactivate. Furthermore, unlike hβ3, the mβ3subunit, irrespective of the N terminus, mediates a shift ingating to more negative potentials at a given Ca²⁺ concentration.The shift in gating gradually is lost following patch excision,suggesting that the gating shift involves some regulatory processdependent on the cytosolic milieu. Examination of additionalgenomes to assess conservation among splice variants suggeststhat the putative mβ3b N terminus may not be a true orthologueof the hβ3b N terminus and that both β3c and β3dappear likely to be primate-specific N-terminal variants. Theseresults have three key implications: first, functional propertiesof homologous β3 subunits may differ among mammalian species;second, the specific physiological roles of homologous β3subunits may differ among mammalian species; and, third, someβ3 variants may be primate-specific ion channel subunits.

Abbreviation used in this paper: BK, large conductance Ca²⁺-activatedK⁺ channel.

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