The inhibitorκB-ortholog Cactus is necessary for normal neuromuscular function in Drosophila melanogaster

• Published in: Neuroscience Vol. 134; no. 2; pp. 397 - 406
• Main Authors: Beramendi, A., Peron, S., Megighian, A., Reggiani, C., Cantera, R.
• Format: Journal Article
• Language: English
• Published: Oxford Elsevier Ltd 2005; Elsevier
• Subjects: Biological and medical sciences; cactus mutants; Drosophila neuromuscular junction; electrophysiological properties; Fundamental and applied biological sciences. Psychology; locomotion activity; muscle strength; Vertebrates: nervous system and sense organs; muscle strength; NF-κB; cactus mutants; Drosophila neuromuscular junction; EJP; NMJ; mepp; locomotion activity; I-κB; electrophysiological properties; Insecta; Electrophysiology; Neuromuscular junction; Drosophilidae; Locomotion; Arthropoda; Muscle; Mutation; Invertebrata; Drosophila melanogaster; Diptera; Strength
• ISSN: 0306-4522; 1873-7544
• DOI: 10.1016/j.neuroscience.2005.04.046

The Drosophila inhibitor-kappaB ortholog Cactus acts as an inhibitor of the Rel-transcription factors Dorsal and Dif. In blastoderm cells and immune competent cells, Cactus inhibits Dorsal and Dif by preventing their nuclear localization. Cactus, Dorsal and Dif are also expressed in somatic muscles, where Cactus and Dorsal, but not Dif, are enriched at the neuromuscular junction. Mutations in dorsal cause neuromuscular defects and mislocalization of Cactus. Here, we investigated whether mutations in cactus affect the neuromuscular system and subcellular localization of Dorsal and Dif. Using locomotion assays, as well as physiological and immunochemical methods, we found that wild type Cactus is necessary for the normal function of the larval neuromuscular system. The phenotype comprises i) altered bouton numbers and impaired neurotransmitter release in the neuromuscular junctions in the abdominal segments, ii) muscular weakness and iii) poor locomotion performance, probably reflecting a general neuromuscular impairment. Interestingly, in cactus mutants the subcellular localization of Dorsal and Dif in muscle is not affected, whereas cactus protein is not detected in the nucleus. This suggests, together with the similarities between the phenotypes induced by cactus and dorsal mutations, that in larval muscles the function of Cactus might be cooperation to the transcriptional activity of Rel proteins more than their cytoplasmic retention. The similarities with inhibitor-kappaB/nuclear factor kappaB interactions and muscle pathology in mammals point to Drosophila as a suitable experimental system to clarify the complex interactions of these proteins in muscle postembryonic development and activity.