Andrea Braganza scite author profile

The mitochondrial electron transport chain utilizes a series of electron transfer reactions to generate cellular ATP through oxidative phosphorylation. A consequence of electron transfer is the generation of reactive oxygen species (ROS), which contributes to both homeostatic signaling as well as oxidative stress during pathology. In this graphical review we provide an overview of oxidative phosphorylation and its inter-relationship with ROS production by the electron transport chain. We also outline traditional and novel translational methodology for assessing mitochondrial energetics in health and disease.

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Alkylation Sensitivity Screens Reveal a Conserved Cross-species Functionome

Svilar

Dyavaiah

Brown

et al. 2012

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To identify genes that contribute to chemotherapy resistance in glioblastoma, we conducted a synthetic lethal screen in a chemotherapy-resistant glioblastoma derived cell line with the clinical alkylator temozolomide (TMZ) and an siRNA library tailored towards “druggable” targets. Select DNA repair genes in the screen were validated independently, confirming the DNA glycosylases UNG and MYH as well as MPG to be involved in the response to high dose TMZ. The involvement of UNG and MYH is likely the result of a TMZ-induced burst of reactive oxygen species. We then compared the human TMZ sensitizing genes identified in our screen with those previously identified from alkylator screens conducted in E. coli and S. cerevisiae. The conserved biological processes across all three species composes an Alkylation Functionome that includes many novel proteins not previously thought to impact alkylator resistance. This high-throughput screen, validation and cross-species analysis was then followed by a mechanistic analysis of two essential nodes: base excision repair (BER) DNA glycosylases (UNG, human and mag1, S. cerevisiae) and protein modification systems, including UBE3B and ICMT in human cells or pby1, lip22, stp22 and aim22 in S. cerevisiae. The conserved processes of BER and protein modification were dual targeted and yielded additive sensitization to alkylators in S. cerevisiae. In contrast, dual targeting of BER and protein modification genes in human cells did not increase sensitivity, suggesting an epistatic relationship. Importantly, these studies provide potential new targets to overcome alkylating agent resistance.

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Platelet bioenergetics correlate with muscle energetics and are altered in older adults

Braganza¹,

Corey²,

Santanasto³

et al. 2019

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P-MRS were also performed in older adults. RESULTS. Maximal and ATP-linked respiratory rate measured in platelets from older adults correlated significantly with muscle maximal respiration (r = 0.595; P = 0.003) and maximal ATP production (r = 0.643; P = 0.004; by 31 P-MRS) in the same individuals. Comparison of platelet bioenergetics in older and younger adults showed lower basal and ATP-linked respiration in older adults. Platelets from older adults also showed enhanced proton leak, which was due to increased protein levels of uncoupling protein 2, and correlated with gate speed (r = 0.58; P = 0.0019). While no significant difference in glycolysis was observed in older compared to younger adults, platelet glycolytic rate correlated with fatigability (r = 0.44; P = 0.016). CONCLUSION. These data advance the mechanistic understanding of age-related changes in mitochondrial function. Further, they suggest that measuring platelet bioenergetics provides a potential supplement or surrogate for muscle biopsy measurement and may be a valuable tool to study mitochondria in age-related decline of physical function.

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Andrea Braganza

Mitochondrial electron transport chain: Oxidative phosphorylation, oxidant production, and methods of measurement

Alkylation Sensitivity Screens Reveal a Conserved Cross-species Functionome

Platelet bioenergetics correlate with muscle energetics and are altered in older adults

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