Me. Morton et al., ALPHA(1) AND ALPHA(2) CA2-CELL CARCINOMA-CELLS( CHANNEL SUBUNIT EXPRESSION IN HUMAN NEURONAL AND SMALL), The FASEB journal, 8(11), 1994, pp. 884-888
Monoclonal antibodies that recognize skeletal muscle dihydropyridine-s
ensitive calcium channel subunits were used to identify similar protei
ns in neuronal and small cell carcinoma cell lines. alpha(1)-related p
roteins were detected by FACS analysis on the surface of human neurobl
astoma (IMR 32) and small cell carcinoma (DMS 273 and DMS 114) cell li
nes. alpha(1)-like polypeptides from these cells were isolated and par
tially characterized. The polypeptides exhibit an M(r) similar to that
of the L-type channel alpha(1) subunit and are recognized by two dist
inct anti-alpha(1) mAbs. The data provide biochemical evidence for str
uctural similarities between the alpha(1) subunit of small cell carcin
oma and neuronal cell lines. Similarly, an alpha(2)-like protein was c
haracterized from these cells. Because alpha(2) is a subunit shared by
many subtypes of calcium channels, these data suggest that subunits o
ther than the pore-forming alpha(1) subunit may play an important role
in etiology of Lambert-Eaton syndrome. We demonstrate directly that s
mall cell carcinoma and a cell line derived from peripheral neurons sh
are L-type calcium channel-related proteins and a protein common to ma
ny voltage-gated calcium channel subtypes. These data support a model
that proposes that cross-reactivity of anti-tumor cell antibodies with
presynaptic elements, possibly calcium channels, plays a role in the
development of Lambert-Eaton syndrome.