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Lausch E Janecke A Bros M Trojandt S Alanay Y De Laet C Hübner CA Meinecke P Nishimura G Matsuo M Hirano Y Tenoutasse S Kiss A Rosa RF Unger SL Renella R Bonafé L Spranger J Unger S Zabel B Superti-Furga A 《Nature genetics》2011,43(2):132-137
Vertebral and metaphyseal dysplasia, spasticity with cerebral calcifications, and strong predisposition to autoimmune diseases are the hallmarks of the genetic disorder spondyloenchondrodysplasia. We mapped a locus in five consanguineous families to chromosome 19p13 and identified mutations in ACP5, which encodes tartrate-resistant phosphatase (TRAP), in 14 affected individuals and showed that these mutations abolish enzyme function in the serum and cells of affected individuals. Phosphorylated osteopontin, a protein involved in bone reabsorption and in immune regulation, accumulates in serum, urine and cells cultured from TRAP-deficient individuals. Case-derived dendritic cells exhibit an altered cytokine profile and are more potent than matched control cells in stimulating allogeneic T cell proliferation in mixed lymphocyte reactions. These findings shed new light on the role of osteopontin and its regulation by TRAP in the pathogenesis of common autoimmune disorders. 相似文献
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Integrative genomics identifies MCU as an essential component of the mitochondrial calcium uniporter 总被引:2,自引:0,他引:2
Baughman JM Perocchi F Girgis HS Plovanich M Belcher-Timme CA Sancak Y Bao XR Strittmatter L Goldberger O Bogorad RL Koteliansky V Mootha VK 《Nature》2011,476(7360):341-345
Mitochondria from diverse organisms are capable of transporting large amounts of Ca(2+) via a ruthenium-red-sensitive, membrane-potential-dependent mechanism called the uniporter. Although the uniporter's biophysical properties have been studied extensively, its molecular composition remains elusive. We recently used comparative proteomics to identify MICU1 (also known as CBARA1), an EF-hand-containing protein that serves as a putative regulator of the uniporter. Here, we use whole-genome phylogenetic profiling, genome-wide RNA co-expression analysis and organelle-wide protein coexpression analysis to predict proteins functionally related to MICU1. All three methods converge on a novel predicted transmembrane protein, CCDC109A, that we now call 'mitochondrial calcium uniporter' (MCU). MCU forms oligomers in the mitochondrial inner membrane, physically interacts with MICU1, and resides within a large molecular weight complex. Silencing MCU in cultured cells or in vivo in mouse liver severely abrogates mitochondrial Ca(2+) uptake, whereas mitochondrial respiration and membrane potential remain fully intact. MCU has two predicted transmembrane helices, which are separated by a highly conserved linker facing the intermembrane space. Acidic residues in this linker are required for its full activity. However, an S259A point mutation retains function but confers resistance to Ru360, the most potent inhibitor of the uniporter. Our genomic, physiological, biochemical and pharmacological data firmly establish MCU as an essential component of the mitochondrial Ca(2+) uniporter. 相似文献
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Putoux A Thomas S Coene KL Davis EE Alanay Y Ogur G Uz E Buzas D Gomes C Patrier S Bennett CL Elkhartoufi N Frison MH Rigonnot L Joyé N Pruvost S Utine GE Boduroglu K Nitschke P Fertitta L Thauvin-Robinet C Munnich A Cormier-Daire V Hennekam R Colin E Akarsu NA Bole-Feysot C Cagnard N Schmitt A Goudin N Lyonnet S Encha-Razavi F Siffroi JP Winey M Katsanis N Gonzales M Vekemans M Beales PL Attié-Bitach T 《Nature genetics》2011,43(6):601-606
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