Intramuscular administration of fractalkine modulates mitochondrial properties and promotes fast glycolytic phenotype.

IF 5 3区 生物学 Q1 BIOCHEMISTRY & MOLECULAR BIOLOGY BioFactors Pub Date : 2024-07-25 DOI:10.1002/biof.2092
Gourabamani Swalsingh, Punyadhara Pani, Unmod Senapati, Bijayashree Sahu, Sunil Pani, Benudhara Pati, Subhasmita Rout, Naresh C Bal
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Abstract

A newly categorized myokine called fractalkine (CX3CL1) has been associated with divergent conditions such as obesity, tissue inflammation, and exercise. CX3CL1 works through specific membrane-bound receptors (CX3CR1) found in various tissues including skeletal muscles. Studies indicate CX3CL1 induces muscles to uptake energy substrates thereby improving glucose utilization and countering diabetes. Here, we tested if the administration of purified CX3CL1 directly into mice skeletal muscles affects its histoarchitecture, mitochondrial activity, and expression of metabolic proteins. We analyzed four muscles: two upper-limb (quadriceps, hamstrings) and two lower-limb (tibialis anterior, gastrocnemius), contralateral leg muscles were taken as controls. The effects of CX3CL1 treatment on histoarchitecture, mitochondrial activity, and expression of metabolic proteins in muscles were characterized. We used histochemical staining succinate dehydrogenase (SDH)/cytochrome c oxidase (COX), myosin ATPase, alkaline phosphatase (ALP) to evaluate the mitochondrial activity, fiber types, and vascularization in the muscles, respectively. Western blotting was used to evaluate the expression of proteins associated with mitochondrial metabolism (OXPHOS), glycolysis, and vascularization. Overall, this study indicates CX3CL1 primarily modulates mitochondrial metabolism and shifts substrate preference toward glucose in the skeletal muscle. Evidence also supports that CX3CL1 stimulates the relative composition of fast fiber types, influencing selection of energy substrates in the skeletal muscle.

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肌内注射 fractalkine 可调节线粒体特性并促进快速糖酵解表型。
一种新归类的肌动素被称为分叉碱(CX3CL1),它与肥胖、组织炎症和运动等不同情况有关。CX3CL1 通过特定的膜结合受体(CX3CR1)发挥作用,这种受体存在于包括骨骼肌在内的各种组织中。研究表明,CX3CL1 能诱导肌肉吸收能量底物,从而提高葡萄糖利用率并对抗糖尿病。在此,我们测试了将纯化的 CX3CL1 直接注入小鼠骨骼肌是否会影响其组织结构、线粒体活性和代谢蛋白的表达。我们分析了四块肌肉:两块上肢肌肉(股四头肌、腘绳肌)和两块下肢肌肉(胫骨前肌、腓肠肌),对侧腿部肌肉作为对照。我们研究了 CX3CL1 处理对肌肉组织结构、线粒体活性和代谢蛋白表达的影响。我们采用琥珀酸脱氢酶(SDH)/细胞色素 c 氧化酶(COX)、肌球蛋白 ATP 酶、碱性磷酸酶(ALP)组织化学染色法分别评估肌肉中的线粒体活性、纤维类型和血管化情况。Western 印迹技术用于评估与线粒体代谢(OXPHOS)、糖酵解和血管化相关的蛋白质表达。总之,这项研究表明,CX3CL1 主要调节线粒体代谢,并使骨骼肌底物偏好转向葡萄糖。还有证据表明,CX3CL1 可刺激快速纤维类型的相对组成,从而影响骨骼肌对能量底物的选择。
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来源期刊
BioFactors
BioFactors 生物-内分泌学与代谢
CiteScore
11.50
自引率
3.30%
发文量
96
审稿时长
6-12 weeks
期刊介绍: BioFactors, a journal of the International Union of Biochemistry and Molecular Biology, is devoted to the rapid publication of highly significant original research articles and reviews in experimental biology in health and disease. The word “biofactors” refers to the many compounds that regulate biological functions. Biological factors comprise many molecules produced or modified by living organisms, and present in many essential systems like the blood, the nervous or immunological systems. A non-exhaustive list of biological factors includes neurotransmitters, cytokines, chemokines, hormones, coagulation factors, transcription factors, signaling molecules, receptor ligands and many more. In the group of biofactors we can accommodate several classical molecules not synthetized in the body such as vitamins, micronutrients or essential trace elements. In keeping with this unified view of biochemistry, BioFactors publishes research dealing with the identification of new substances and the elucidation of their functions at the biophysical, biochemical, cellular and human level as well as studies revealing novel functions of already known biofactors. The journal encourages the submission of studies that use biochemistry, biophysics, cell and molecular biology and/or cell signaling approaches.
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