LOW EXPRESSION ALLELE-ALPHA(LELY) OF RED-CELL SPECTRIN IS ASSOCIATED WITH MUTATIONS IN EXON-40 (ALPHA(V 41)-POLYMORPHISM) AND INTRON-45 ANDWITH PARTIAL SKIPPING OF EXON-46/
R. Wilmotte et al., LOW EXPRESSION ALLELE-ALPHA(LELY) OF RED-CELL SPECTRIN IS ASSOCIATED WITH MUTATIONS IN EXON-40 (ALPHA(V 41)-POLYMORPHISM) AND INTRON-45 ANDWITH PARTIAL SKIPPING OF EXON-46/, The Journal of clinical investigation, 91(5), 1993, pp. 2091-2096
The alpha(v/41) polymorphism of erythroid alpha-spectrin has been char
acterized initially by an increased susceptibility to proteolysis of t
he alphaIV-alphaV domain junction (Alloisio N., L. Morle, J. Marechal,
A.-F. Roux, M.-T. Ducluzeau, D. Guetarni, B. Pothier, F. Baklouti, A.
Ghanem, R. Kastally, et al. 1991. J. Clin. Invest. 87:2169-2177). Unt
il now, it has been found associated invariably with a low expression
level of the corresponding a chain. Among 61 chromosomes investigated
in French and North African individuals or kindreds, we observed 19 ch
romosomes with the alpha(v/41) polymorphism. With no single exception,
the latter displayed a point mutation in exon 40 (Leu --> Val; CTA --
> GTA) at position alpha 1857. According to the triple helical model o
f spectrin structure, this change accounts for the peptide maps' abnor
malities. Sequencing the entire alphaV domain cDNA disclosed, in addit
ion, a partial skipping of exon 46. At the gene level, a substitution
(C --> T) was evidenced at nucleotide -12 of intron 45. This mutation
appeared linked to the exon 40 mutation in 17 chromosomes, again with
no single exception, among 53 examined chromosomes. We hypothesized th
at the lack of exon 46 would hamper the nucleation process and eventua
lly account for the low expression feature. The present doubly mutated
allele was renamed allele alpha(LELY) (low expression, Lyon).