Nicotinic acetylcholine receptors of Drosophila: three subunits encoded by genomically linked genes can co-assemble into the same receptor complex.

The second beta-like subunit (SBD) is a putative structural subunit of Drosophila melanogaster nicotinic acetylcholine receptors (nAChRs). Here we have produced specific antibodies against SBD to study, which other nAChR subunits can co-assemble with SBD in receptor complexes of the Drosophila nervous system. Immunohistochemical studies in the adult optic lobe revealed that SBD has a distribution similar to that of the alpha-subunit ALS in the synaptic neuropil. The subunits ALS, D(alpha)2 and SBD can be co-purified by alpha-bungarotoxin affinity chromatography. Moreover, anti-SBD antibodies co-precipitate ALS and D(alpha)2 and, vice versa, ALS and D(alpha)2 antibodies co-immunoprecipitate SBD protein. Two-step immunoaffinity chromatography with immobilized antibodies against ALS and D(alpha)2 revealed the existence of nAChR complexes that include ALS, D(alpha)2 and SBD as integral components. Interestingly, the genes encoding these three subunits appear to be directly linked in the Drosophila genome at region 96 A of the third chromosome. In addition, SBD appears to be a component of a different receptor complex, which includes the ARD protein as an additional beta-subunit, but neither ALS nor D(alpha)2 nor the third alpha-subunit D(alpha)3. These findings suggest a considerable complexity of the Drosophila nicotinic receptor system.