Novel γ-sarcoglycan interactors in murine muscle membranes.

IF 5.3 2区医学 Q2 CELL BIOLOGY

Skeletal Muscle Pub Date : 2022-01-22 DOI:10.1186/s13395-021-00285-2

Tara C Smith, Georgios Vasilakos, Scott A Shaffer, Jason M Puglise, Chih-Hsuan Chou, Elisabeth R Barton, Elizabeth J Luna

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引用次数: 1

Abstract

Background: The sarcoglycan complex (SC) is part of a network that links the striated muscle cytoskeleton to the basal lamina across the sarcolemma. The SC coordinates changes in phosphorylation and Ca⁺⁺-flux during mechanical deformation, and these processes are disrupted with loss-of-function mutations in gamma-sarcoglycan (Sgcg) that cause Limb girdle muscular dystrophy 2C/R5.

Methods: To gain insight into how the SC mediates mechano-signaling in muscle, we utilized LC-MS/MS proteomics of SC-associated proteins in immunoprecipitates from enriched sarcolemmal fractions. Criteria for inclusion were co-immunoprecipitation with anti-Sgcg from C57BL/6 control muscle and under-representation in parallel experiments with Sgcg-null muscle and with non-specific IgG. Validation of interaction was performed in co-expression experiments in human RH30 rhabdomyosarcoma cells.

Results: We identified 19 candidates as direct or indirect interactors for Sgcg, including the other 3 SC proteins. Novel potential interactors included protein-phosphatase-1-catalytic-subunit-beta (Ppp1cb, PP1b) and Na⁺-K⁺-Cl^--co-transporter NKCC1 (SLC12A2). NKCC1 co-localized with Sgcg after co-expression in human RH30 rhabdomyosarcoma cells, and its cytosolic domains depleted Sgcg from cell lysates upon immunoprecipitation and co-localized with Sgcg after detergent permeabilization. NKCC1 localized in proximity to the dystrophin complex at costameres in vivo. Bumetanide inhibition of NKCC1 cotransporter activity in isolated muscles reduced SC-dependent, strain-induced increases in phosphorylation of extracellular signal-regulated kinases 1 and 2 (ERK1/2). In silico analysis suggests that candidate SC interactors may cross-talk with survival signaling pathways, including p53, estrogen receptor, and TRIM25.

Conclusions: Results support that NKCC1 is a new SC-associated signaling protein. Moreover, the identities of other candidate SC interactors suggest ways by which the SC and NKCC1, along with other Sgcg interactors such as the membrane-cytoskeleton linker archvillin, may regulate kinase- and Ca⁺⁺-mediated survival signaling in skeletal muscle.

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小鼠肌膜中新的γ-肌聚糖相互作用物。

背景:肌聚糖复合物(SC)是横纹肌细胞骨架与基底膜连接网络的一部分。SC在机械变形过程中协调磷酸化和Ca++通量的变化，这些过程被γ -肌聚糖(Sgcg)的功能缺失突变所破坏，从而导致肢带肌营养不良2C/R5。方法:为了深入了解SC如何在肌肉中介导机械信号传导，我们利用LC-MS/MS蛋白质组学对富集的肌层组分免疫沉淀物中的SC相关蛋白进行了分析。纳入标准是与来自C57BL/6对照肌的抗sgcg共免疫沉淀，以及在无sgcg肌肉和非特异性IgG的平行实验中代表性不足。在人RH30横纹肌肉瘤细胞共表达实验中验证了相互作用。结果:我们确定了19个候选物作为Sgcg的直接或间接相互作用物，包括其他3个SC蛋白。新的潜在相互作用包括蛋白磷酸酶-1催化亚基- β (Ppp1cb, PP1b)和Na+-K+-Cl-共转运体NKCC1 (SLC12A2)。NKCC1在人RH30横纹肌肉瘤细胞中共表达后与Sgcg共定位，其胞质结构域在免疫沉淀时从细胞溶解物中去除Sgcg，在洗涤剂渗透后与Sgcg共定位。NKCC1在动物体内定位于肌营养不良蛋白复合体附近。布美他尼在孤立肌肉中抑制NKCC1共转运蛋白活性可降低sc依赖性，菌株诱导的细胞外信号调节激酶1和2 (ERK1/2)磷酸化的增加。计算机分析表明，候选SC相互作用物可能与生存信号通路串扰，包括p53、雌激素受体和TRIM25。结论:NKCC1是一种新的sc相关信号蛋白。此外，其他候选SC相互作用物的特性表明SC和NKCC1以及其他Sgcg相互作用物(如膜-细胞骨架连接物arch绒毛蛋白)可能调节骨骼肌中激酶和Ca++介导的存活信号。

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来源期刊

Skeletal Muscle CELL BIOLOGY-

CiteScore

9.10

自引率

0.00%

发文量

审稿时长

12 weeks

期刊介绍： The only open access journal in its field, Skeletal Muscle publishes novel, cutting-edge research and technological advancements that investigate the molecular mechanisms underlying the biology of skeletal muscle. Reflecting the breadth of research in this area, the journal welcomes manuscripts about the development, metabolism, the regulation of mass and function, aging, degeneration, dystrophy and regeneration of skeletal muscle, with an emphasis on understanding adult skeletal muscle, its maintenance, and its interactions with non-muscle cell types and regulatory modulators. Main areas of interest include: -differentiation of skeletal muscle- atrophy and hypertrophy of skeletal muscle- aging of skeletal muscle- regeneration and degeneration of skeletal muscle- biology of satellite and satellite-like cells- dystrophic degeneration of skeletal muscle- energy and glucose homeostasis in skeletal muscle- non-dystrophic genetic diseases of skeletal muscle, such as Spinal Muscular Atrophy and myopathies- maintenance of neuromuscular junctions- roles of ryanodine receptors and calcium signaling in skeletal muscle- roles of nuclear receptors in skeletal muscle- roles of GPCRs and GPCR signaling in skeletal muscle- other relevant aspects of skeletal muscle biology. In addition, articles on translational clinical studies that address molecular and cellular mechanisms of skeletal muscle will be published. Case reports are also encouraged for submission. Skeletal Muscle reflects the breadth of research on skeletal muscle and bridges gaps between diverse areas of science for example cardiac cell biology and neurobiology, which share common features with respect to cell differentiation, excitatory membranes, cell-cell communication, and maintenance. Suitable articles are model and mechanism-driven, and apply statistical principles where appropriate; purely descriptive studies are of lesser interest.