[No authors listed]
BACKGROUND:A point mutation in the Drosophila gene technical knockout (tko), encoding mitoribosomal protein S12, was previously shown to cause a phenotype of respiratory chain deficiency, developmental delay, and neurological abnormalities similar to those presented in many human mitochondrial disorders, as well as defective courtship behavior. METHODOLOGY/PRINCIPAL FINDINGS:Here, we describe a transcriptome-wide analysis of gene expression in tko(25t) mutant flies that revealed systematic and compensatory changes in the expression of genes connected with metabolism, including up-regulation of lactate dehydrogenase and of many genes involved in the catabolism of fats and proteins, and various anaplerotic pathways. Gut-specific enzymes involved in the primary mobilization of dietary fats and proteins, as well as a number of transport functions, were also strongly up-regulated, consistent with the idea that oxidative phosphorylation OXPHOS dysfunction is perceived physiologically as a starvation for particular biomolecules. In addition, many stress-response genes were induced. Other changes may reflect a signature of developmental delay, notably a down-regulation of genes connected with reproduction, including gametogenesis, as well as courtship behavior in males; logically this represents a programmed response to a mitochondrially generated starvation signal. The underlying signalling pathway, if conserved, could influence many physiological processes in response to nutritional stress, although any such pathway involved remains unidentified. CONCLUSIONS/SIGNIFICANCE:These studies indicate that general and organ-specific metabolism is transformed in response to mitochondrial dysfunction, including digestive and absorptive functions, and give important clues as to how novel therapeutic strategies for mitochondrial disorders might be developed.
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TotX, CG30016, NT5E-2, CR45923, CG33346, CG33493, elav, sdk, bcn92, Raf, tko, sgg, per, CG2650, Rala, CG5966, raptor, Drsl4, CG12057, CG31373, CG31674, p24-2, CG31775, CG31809, Lst8, Lsp1alpha, rictor, Vav, CG12200, Ser6, Cyp6t1, CG13947, Lsp1beta, gkt, CG15406, CG3285, Thor, tim, Jon25Bii, Jon25Bi, Tig, Uro, LManIII, LManV, LManVI, Fbp2, Cyp4e3, yip2, piwi, CG12264, Arpc1, NimC1, Cyp28a5, NimC2, CG10621, CG10659, nompB, CG7882, Tsp42Ed, phr, CG12780, PGRP-SC1b, ana, Etf-QO, Def, CG30022, nemy, drk, CG8323, Hsc70-5, Arc1, Sin1, Cyp6a23, Cyp6a8, fat-spondin, CG5767, adp, Idgf5, GstE1, CG10924, Pepck, List, CG8654, Magi, ND-B12, Hsp22, Dat, Lsp1gamma, Reg-2, CG13900, CG13905, LysX, drpr, CG10592, Myt1, S6k, PGRP-SD, Clk, Oseg1, Tequila, Hsp23, path, I-2, Bmcp, mirr, CG11267, Fbp1, CG3961, CG6839, CG3819, CG11796, srl, Gld, alpha-Est10, dsx, CG7800, osk, Fst, CG17734, Cpn, CG5999, CG3505, sxe2, Akt1, fru, CG17752, CG16727, CG11659, TFAM, fit, CG5805, to, CG11893, CG42235, CG17192, eater, Obp99b, CG15533, Npc2g, salt, AMPKalpha, Optix, RFeSP, Lsp2, ImpL3, Phb2, Tor, l(2)03659, Pp1-13C, epsilonTry, karr, Peritrophin-15b, Peritrophin-15a, Ugt86Dd, lectin-28C
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