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Browsing by Author "Sturek, Jeffrey M."
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Item 18F-NaF and 18F-FDG as molecular probes in the evaluation of atherosclerosis(Springer Nature, 2018-11) McKenney-Drake, Mikaela L.; Moghbel, Mateen C.; Paydary, Koosha; Alloosh, Mouhamad; Houshmand, Sina; Moe, Sharon; Salavati, Ali; Sturek, Jeffrey M.; Territo, Paul R.; Weaver, Connie; Werner, Thomas J.; Høilund-Carlsen, Poul Flemming; Sturek, Michael; Alavi, Abass; Cellular and Integrative Physiology, School of MedicineThe early detection of atherosclerotic disease is vital to the effective prevention and management of life-threatening cardiovascular events such as myocardial infarctions and cerebrovascular accidents. Given the potential for positron emission tomography (PET) to visualize atherosclerosis earlier in the disease process than anatomic imaging modalities such as computed tomography (CT), this application of PET imaging has been the focus of intense scientific inquiry. Although 18F-FDG has historically been the most widely studied PET radiotracer in this domain, there is a growing body of evidence that 18F-NaF holds significant diagnostic and prognostic value as well. In this article, we review the existing literature on the application of 18F-FDG and 18F-NaF as PET probes in atherosclerosis and present the findings of original animal and human studies that have examined how well 18F-NaF uptake correlates with vascular calcification and cardiovascular risk.Item Inhibition of the mitochondrial pyruvate carrier simultaneously mitigates hyperinflammation and hyperglycemia in COVID-19(American Association for the Advancement of Science, 2023) Zhu, Bibo; Wei, Xiaoqin; Narasimhan, Harish; Qian, Wei; Zhang, Ruixuan; Cheon, In Su; Wu, Yue; Li, Chaofan; Jones, Russell G.; Kaplan, Mark H.; Vassallo, Robert A.; Braciale, Thomas J.; Somerville, Lindsay; Colca, Jerry R.; Pandey, Akhilesh; Jackson, Patrick E. H.; Mann, Barbara J.; Krawczyk, Connie M.; Sturek, Jeffrey M.; Sun, Jie; Microbiology and Immunology, School of MedicineThe relationship between diabetes and coronavirus disease 2019 (COVID-19) is bidirectional: Although individuals with diabetes and high blood glucose (hyperglycemia) are predisposed to severe COVID-19, severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) infection can also cause hyperglycemia and exacerbate underlying metabolic syndrome. Therefore, interventions capable of breaking the network of SARS-CoV-2 infection, hyperglycemia, and hyperinflammation, all factors that drive COVID-19 pathophysiology, are urgently needed. Here, we show that genetic ablation or pharmacological inhibition of mitochondrial pyruvate carrier (MPC) attenuates severe disease after influenza or SARS-CoV-2 pneumonia. MPC inhibition using a second-generation insulin sensitizer, MSDC-0602K (MSDC), dampened pulmonary inflammation and promoted lung recovery while concurrently reducing blood glucose levels and hyperlipidemia after viral pneumonia in obese mice. Mechanistically, MPC inhibition enhanced mitochondrial fitness and destabilized hypoxia-inducible factor-1α, leading to dampened virus-induced inflammatory responses in both murine and human lung macrophages. We further showed that MSDC enhanced responses to nirmatrelvir (the antiviral component of Paxlovid) to provide high levels of protection against severe host disease development after SARS-CoV-2 infection and suppressed cellular inflammation in human COVID-19 lung autopsies, demonstrating its translational potential for treating severe COVID-19. Collectively, we uncover a metabolic pathway that simultaneously modulates pulmonary inflammation, tissue recovery, and host metabolic health, presenting a synergistic therapeutic strategy to treat severe COVID-19, particularly in patients with underlying metabolic disease.