Sequence differences between alpha(1C) and alpha(1S) Ca2+ channel subunitsreveal structural determinants of a guarded and modulated benzothiazepine receptor
S. Berjukow et al., Sequence differences between alpha(1C) and alpha(1S) Ca2+ channel subunitsreveal structural determinants of a guarded and modulated benzothiazepine receptor, J BIOL CHEM, 274(10), 1999, pp. 6154-6160
The molecular basis of the Ca2+ channel block by (+)cis-diltiazem was studi
ed in class A/L-type chimeras and mutant ore. Ca2+ channels. Chimeras consi
sted of either rabbit heart (alpha(1C-a)) or carp skeletal muscle (alpha(1S
)) sequence in transmembrane segments IILS6, IVS6, and adjacent S5-S6 linke
rs. Only chimeras containing sequences from alpha(1C-a) were efficiently bl
ocked by (+)-cis-diltiazem, whereas the phenylalkylamine (-)-gallopamil eff
iciently blocked both constructs. Carp skeletal muscle and rabbit heart Ca2
+ channel alpha(1) subunits differ with respect to two nonconserved amino a
cids in segments IVS6. Transfer of a single leucine (Leu(1383), located at
the extracellular mouth of the pore) from IVS6 alpha(1C-a) to IVS6 of alpha
(1S) Significantly increased the (+)-cis-diltiazem sensitivity of the corre
sponding mutant L1383I. An analysis of the role of the two heterologous ami
no acids in a L-type alpha(1) subunit revealed that corresponding amino aci
ds in position 1487 (outer channel mouth) determine recovery of resting Ca2
+ channels from block by (+)-cis-diltiazem. The second heterologous amino a
cid in position 1504 of segment IVS6 (inner channel mouth) was identified a
s crucial inactivation determinant of L-type Ca2+ channels. This residue si
multaneously modulates drug binding during membrane depolarization. Our stu
dy provides the first evidence for a guarded and modulated benzothiazepine
receptor on L-type channels.