DUSP1 promotes muscle atrophy by inhibiting myocyte differentiation in cachectic patients

Sui, Xianxian; Mao, Xiangyu; Wu, Guohao; Meng, Qingcai

doi:10.3389/fonc.2022.1040112

Cited by 3 publications

(1 citation statement)

References 29 publications

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“…InteresOngly, FKBP5 is a pepOdyl proyl isomerase that has been linked mechanisOcally to myogenesis 71 . DUSP1, a dualspecificity protein phosphatase involved in regulaOon of the cell cycle and apoptosis, was also upregulated in PAD and has been associated with atrophy due to impaired myoblast differenOaOon in cancer cachexia 72 . ANKRD1 was also uniquely expressed in two subpopulaOons of RegeneraOng myonuclei in PAD muscle (Figure 3F).…”

Section: Pad Pagents Display Unique Myonuclei Populagons and Transcri...mentioning

confidence: 99%

Single Nuclei RNA Sequencing of the Gastrocnemius Muscle in Peripheral Artery Disease

Pass¹,

Palzkill²,

Tan³

et al. 2023

Preprint

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Background: Lower extremity peripheral artery disease (PAD) is a growing epidemic with limited effective treatment options. Herein, we provide a single nuclei atlas of PAD limb muscle to facilitate a better understanding of the composition of cells and transcriptional differences that comprise the diseased limb muscle. Methods: We obtained gastrocnemius muscle specimens from 20 PAD patients and 12 non-PAD controls. Nuclei were isolated and single nuclei RNA sequencing (snRNAseq) was performed. The composition of nuclei was characterized by iterative clustering via principal component analysis, differential expression analysis, and the use of known marker genes. Bioinformatics analysis was performed to determine differences in gene expression between PAD and non-PAD nuclei, as well as subsequent analysis of intercellular signaling networks. Additional histological analyses of muscle specimens accompany the snRNAseq atlas. Results: snRNAseq analysis indicated a fiber type shift with PAD patients having fewer Type I (slow/oxidative) and more Type II (fast/glycolytic) myonuclei compared to non-PAD, which was confirmed using immunostaining of muscle specimens. Myonuclei from PAD displayed global upregulation of genes involved in stress response, autophagy, hypoxia, and atrophy. Subclustering of myonuclei also identified populations that were unique to PAD muscle characterized by metabolic dysregulation. PAD muscles also displayed unique transcriptional profiles and increased diversity of transcriptomes in muscle stem cells, regenerating myonuclei, and fibro-adipogenic progenitor (FAPs) cells. Analysis of intercellular communication networks revealed FAPs as a major signaling hub in PAD muscle, as well as deficiencies in angiogenic and bone morphogenetic protein signaling which may contribute to poor limb function in PAD. Conclusions: This reference snRNAseq atlas provides a comprehensive analysis of the cell composition, transcriptional signature, and intercellular communication pathways that are altered in the PAD condition.

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Section: Pad Pagents Display Unique Myonuclei Populagons and Transcri...mentioning

confidence: 99%

Single Nuclei RNA Sequencing of the Gastrocnemius Muscle in Peripheral Artery Disease

Pass¹,

Palzkill²,

Tan³

et al. 2023

Preprint

View full text Add to dashboard Cite

show abstract

CCR7/DUSP1 signaling Axis mediates iCAF to regulates head and neck squamous cell carcinoma growth

Gao,

Wang,

Lin

et al. 2024

Cellular Signalling

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Dual-specificity phosphatase 1 inhibits Singapore grouper iridovirus replication via regulating apoptosis in Epinephelus coioides

He,

Cai,

et al. 2024

Fish & Shellfish Immunology

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DUSP1 promotes muscle atrophy by inhibiting myocyte differentiation in cachectic patients

Cited by 3 publications

References 29 publications

Single Nuclei RNA Sequencing of the Gastrocnemius Muscle in Peripheral Artery Disease

Single Nuclei RNA Sequencing of the Gastrocnemius Muscle in Peripheral Artery Disease

CCR7/DUSP1 signaling Axis mediates iCAF to regulates head and neck squamous cell carcinoma growth

Dual-specificity phosphatase 1 inhibits Singapore grouper iridovirus replication via regulating apoptosis in Epinephelus coioides

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