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Please use this identifier to cite or link to this item: http://hdl.handle.net/11375/26660
Title: Examination of Mitochondrial Bioenergetics in Skeletal Muscle Biopsies from Adults with Type 1 Diabetes
Authors: Monaco, Cynthia
Advisor: Hawke, Thomas
Department: Medical Sciences
Keywords: Mitochondria;Type 1 Diabetes;Mitochondrial Bioenergetics;T1D;Diabetic myopathy;Muscle biopsy;High-resolution respirometry;Mitochondrial respiration;ROS;Sex differences;Sexual dimorphism;Mitochondrial density;OXPHOS;Mitochondrial ultrastructure
Publication Date: 2021
Abstract: The overall objective of this thesis was to examine mitochondrial bioenergetics in muscle biopsies from humans with type 1 diabetes (T1D) to gain a deeper understanding of the cellular mechanism(s) underlying changes to skeletal muscle health reported in T1D, a phenotype we have referred to as ‘diabetic myopathy’. It was hypothesized that humans with T1D, compared to their matched counterparts without diabetes (control), would demonstrate significant deficiencies in muscle mitochondrial function and ultrastructure/content as determined by the gold-standard in vitro methodology: high-resolution respirometry and transmission electron microscopy, respectively. It was further hypothesized that sex differences would not exist in mitochondrial function with T1D, and mitochondrial deficiencies would be more dramatic at an earlier age with T1D. Adults with uncomplicated T1D and strictly matched controls (age, sex, BMI, self-reported physical activity levels) were recruited from surrounding university-dwelling communities. Site-specific deficiencies in mitochondrial respiration, H2O2 emission, and calcium retention capacity were found in young, physically active adults with T1D despite normal mitochondrial content. Further experiments revealed that muscle mitochondrial respiration in women and men differentially adapt to the T1D environment where men with T1D have lower complex II but higher complex I respiration compared to women with T1D, while women (irrespective of T1D) have lower ADP sensitivity. Women with T1D also demonstrated lower H2O2 emission compared to men with T1D. In contrast, despite a lower mitochondrial content in middle- to older-aged adults with T1D, mitochondrial respiration (normalized to content) was either normal or increased in adults with T1D compared to control, with observable differences between sexes. Overall, this research has demonstrated that despite being recreationally to physically active, adults with uncomplicated T1D with moderately well-managed glycemia demonstrate alterations in skeletal muscle mitochondrial function and ultrastructure, including differences between sexes.
URI: http://hdl.handle.net/11375/26660
Appears in Collections:Open Access Dissertations and Theses

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