Literature DB >> 29454751

Strain-Dependent Variation in Acute Ischemic Muscle Injury.

Cameron A Schmidt1, Adam J Amorese1, Terence E Ryan1, Emma J Goldberg1, Michael D Tarpey1, Thomas D Green1, Reema R Karnekar1, Dean J Yamaguchi2, Espen E Spangenburg1, Joseph M McClung3.   

Abstract

Limited efficacy of clinical interventions for peripheral arterial disease necessitates a better understanding of the environmental and genetic determinants of tissue pathology. Existing research has largely ignored the early skeletal muscle injury response during hind limb ischemia (HLI). We compared the hind limb muscle response, after 6 hours of ischemia, in two mouse strains that differ dramatically in their postischemic extended recovery: C57BL/6J and BALB/cJ. Perfusion, measured by laser Doppler and normalized to the control limb, differed only slightly between strains after HLI (<12% across all measures). Similar (<10%) effect sizes in lectin-perfused vessel area and no differences in tissue oxygen saturation measured by reflectance spectroscopy were also found. Muscles from both strains were functionally impaired after HLI, but greater muscle necrosis and loss of dystrophin-positive immunostaining were observed in BALB/cJ muscle compared with C57BL/6J. Muscle cell-specific dystrophin loss and reduced viability were also detected in additional models of ischemia that were independent of residual perfusion differences. Our results indicate that factors other than the completeness of ischemia alone (ie, background genetics) influence the magnitude of acute ischemic muscle injury. These findings may have implications for future development of therapeutic interventions for limb ischemia and for understanding the phasic etiology of chronic and acute ischemic muscle pathophysiology.
Copyright © 2018 American Society for Investigative Pathology. Published by Elsevier Inc. All rights reserved.

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Year:  2018        PMID: 29454751      PMCID: PMC5906740          DOI: 10.1016/j.ajpath.2018.01.008

Source DB:  PubMed          Journal:  Am J Pathol        ISSN: 0002-9440            Impact factor:   4.307


  58 in total

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Authors:  Gale L Tang; David S Chang; Rajabrata Sarkar; Rong Wang; Louis M Messina
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Review 3.  A novel scheme of dystrophin disruption for the progression of advanced heart failure.

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Journal:  Biochim Biophys Acta       Date:  2005-01-26

Review 4.  Pathophysiology of Intermittent Claudication in Peripheral Artery Disease.

Authors:  Naomi M Hamburg; Mark A Creager
Journal:  Circ J       Date:  2017-01-26       Impact factor: 2.993

5.  Ischemia depletes dystrophin and inhibits protein synthesis in the canine heart: mechanisms of myocardial ischemic injury.

Authors:  Manuel Rodríguez; Wei-Jun Cai; Sawa Kostin; Benedict R Lucchesi; Jutta Schaper
Journal:  J Mol Cell Cardiol       Date:  2005-05       Impact factor: 5.000

6.  Evans Blue Dye as an in vivo marker of myofibre damage: optimising parameters for detecting initial myofibre membrane permeability.

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Authors:  Mahroo Mofarrahi; Joseph M McClung; Christopher D Kontos; Elaine C Davis; Bassman Tappuni; Nicolay Moroz; Amy E Pickett; Laurent Huck; Sharon Harel; Gawiyou Danialou; Sabah N A Hussain
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8.  PADPIN: protein-protein interaction networks of angiogenesis, arteriogenesis, and inflammation in peripheral arterial disease.

Authors:  Liang-Hui Chu; Chaitanya G Vijay; Brian H Annex; Joel S Bader; Aleksander S Popel
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Review 9.  Chronology of mitochondrial and cellular events during skeletal muscle ischemia-reperfusion.

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  12 in total

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Journal:  JVS Vasc Sci       Date:  2022-04-21

2.  Extensive skeletal muscle cell mitochondriopathy distinguishes critical limb ischemia patients from claudicants.

Authors:  Terence E Ryan; Dean J Yamaguchi; Cameron A Schmidt; Tonya N Zeczycki; Saame Raza Shaikh; Patricia Brophy; Thomas D Green; Michael D Tarpey; Reema Karnekar; Emma J Goldberg; Genevieve C Sparagna; Maria J Torres; Brian H Annex; P Darrell Neufer; Espen E Spangenburg; Joseph M McClung
Journal:  JCI Insight       Date:  2018-11-02

3.  Effects of fasting on isolated murine skeletal muscle contractile function during acute hypoxia.

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Review 4.  Skeletal Muscle Mitochondrial Dysfunction and Oxidative Stress in Peripheral Arterial Disease: A Unifying Mechanism and Therapeutic Target.

Authors:  Kyoungrae Kim; Erik M Anderson; Salvatore T Scali; Terence E Ryan
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Review 5.  Current Status of Angiogenic Cell Therapy and Related Strategies Applied in Critical Limb Ischemia.

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Journal:  Int J Mol Sci       Date:  2021-02-26       Impact factor: 5.923

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Review 7.  Emerging roles of mesenchymal stem cell therapy in patients with critical limb ischemia.

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8.  Protease nexin-1 deficiency increases mouse hindlimb neovascularisation following ischemia and accelerates femoral artery perfusion.

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9.  Chronic kidney disease exacerbates ischemic limb myopathy in mice via altered mitochondrial energetics.

Authors:  Fabian N Berru; Sarah E Gray; Trace Thome; Ravi A Kumar; Zachary R Salyers; Madeline Coleman; Kerri O'Malley; Leonardo F Ferreira; Scott A Berceli; Salvatore T Scali; Terence E Ryan
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10.  PFKFB3-mediated glycolysis rescues myopathic outcomes in the ischemic limb.

Authors:  Terence E Ryan; Cameron A Schmidt; Michael D Tarpey; Adam J Amorese; Dean J Yamaguchi; Emma J Goldberg; Melissa Mr Iñigo; Reema Karnekar; Allison O'Rourke; James M Ervasti; Patricia Brophy; Thomas D Green; P Darrell Neufer; Kelsey Fisher-Wellman; Espen E Spangenburg; Joseph M McClung
Journal:  JCI Insight       Date:  2020-09-17
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