CLONING AND DELETION MUTAGENESIS OF THE ALPHA(2)DELTA CALCIUM-CHANNELSUBUNIT FROM PORCINE CEREBRAL-CORTEX - EXPRESSION OF A SOLUBLE FORM OF THE PROTEIN THAT RETAINS [H-3]GABAPENTIN BINDING-ACTIVITY
Jp. Brown et Ns. Gee, CLONING AND DELETION MUTAGENESIS OF THE ALPHA(2)DELTA CALCIUM-CHANNELSUBUNIT FROM PORCINE CEREBRAL-CORTEX - EXPRESSION OF A SOLUBLE FORM OF THE PROTEIN THAT RETAINS [H-3]GABAPENTIN BINDING-ACTIVITY, The Journal of biological chemistry, 273(39), 1998, pp. 25458-25465
The anti-epileptic, anti-hyperalgesic, and anxiolytic agent gabapentin
(1-(aminomethyl)-cyclohexane acetic acid or Neurontin) has previously
been shown to bind with high affinity to the alpha(2)delta subunit of
voltage-dependent calcium channels (Gee, N. S., Brown, J. P., Dissana
yake, V. U. K., Offord, J., Thurlow, R., and Woodruff, G.N. (1996) J.
Biol. Chem. 271, 5768-5776). We report here the cloning, sequencing, a
nd deletion mutagenesis of the alpha(2)delta subunit from porcine brai
n. The deduced protein sequence has a 95.9 and 98.2% identity to the r
at and human neuronal alpha(2)delta sequences, respectively. [H-3]Gaba
pentin binds with a K-D of 37.5 +/- 10.4 nM to membranes prepared from
COS-7 cells transfected with wild-type porcine alpha(2)delta cDNA. Si
x deletion mutants (B-G) that lack the delta polypeptide, together wit
h varying amounts of the alpha(2) component, failed to bind [H-3]gabap
entin. C-terminal deletion mutagenesis of the delta polypeptide identi
fied a segment (residues 960-994) required for correct assembly of the
[H-3]gabapentin binding pocket. Mutant L, which lacks the putative me
mbrane anchor in the delta sequence, was found in both membrane-associ
ated and soluble secreted forms. The soluble form was not proteolytica
lly cleaved into separate alpha(2) and delta chains but still retained
a high affinity (K-D = 30.7 +/- 8.1 nM) for [H-3]gabapentin. The prod
uction of a soluble alpha(2)delta mutant supports the single transmemb
rane model of the alpha(2)delta subunit and is an important step towar
d the large-scale recombinant expression of the protein.