Yi-Da Tang scite author profile

Background-Although thyroid dysfunction has been linked to heart failure, it is not clear whether hypothyroidism alone can cause heart failure. Methods and Results-Hypothyroidism was induced in adult rats by treatment with 0.025% propylthiouracil (PTU) for 6 weeks (PTU-S) and 1 year (PTU-L). Echocardiographic measurements, left ventricular (LV) hemodynamics, isolated myocyte length (KOH method), myocardial blood flow (fluorescent microspheres), arteriolar morphometry, and gene expression (Western blot) were determined. Heart weight, heart rate, LV systolic blood pressure, LV ejection fraction, LV fractional shortening, and systolic wall thickness were reduced in PTU-S and PTU-L rats. LV internal diameter in systole increased by 40% in PTU-S and 86% in PTU-L. LV internal dimension in diastole was increased in PTU-S and PTU-L rats, but only PTU-L rats showed a significant increase in myocyte length due to series sarcomere addition.Resting and maximum (adenosine) myocardial blood flow were reduced in both PTU-S and PTU-L rats. Impaired blood flow was due to a large reduction in arteriolar length density and small arterioles in PTU-S and PTU-L (PϽ0.05 or greater for all of the above comparisons). Expression of sarcoplasmic/endoplasmic reticulum Ca 2ϩ -ATPase (SERCA)-2a and ␣-myosin heavy chain were reduced in hypothyroidism, whereas phospholamban and ␤-myosin heavy chain were increased. Conclusions-Hypothyroidism led to severe, progressive systolic dysfunction and increased chamber diameter/wall thickness ratio despite a reduction in cardiac mass. Chamber dilatation in PTU-L rats was due to series sarcomere addition, typical of heart failure. Hypothyroidism resulted in impaired myocardial blood flow due to a dramatic loss of arterioles. Thus, we have identified 2 important new mechanisms by which low thyroid function may lead to heart failure. (Circulation. 2005;112:3122-3130.)

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Coronary Artery Disease: From Mechanism to Clinical Practice

Shao

Wang

Tian

et al. 2020

181

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Complementing Cancer Photodynamic Therapy with Ferroptosis through Iron Oxide Loaded Porphyrin-Grafted Lipid Nanoparticles

et al. 2021

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Nanomaterials that combine multimodality imaging and therapeutic functions within a single nanoplatform have drawn extensive attention for molecular medicines and biological applications. Herein, we report a theranostic nanoplatform based on a relatively smaller (<20 nm) iron oxide loaded porphyrin-grafted lipid nanoparticles (Fe3O4@PGL NPs). The amphiphilic PGL easily self-assembled on the hydrophobic exterior surface of ultrasmall Fe3O4 NPs, resulting in a final ultrasmall Fe3O4@PGL NPs with diameter of ∼10 nm. The excellent self-assembling nature of the as-synthesized PGL NPs facilitated a higher loading of porphyrins, showed a negligible dark toxicity, and demonstrated an excellent photodynamic effect against HT-29 cancer cells in vitro. The in vivo experimental results further confirmed that Fe3O4@PGL NPs were ideally qualified for both the fluorescence and magnetic resonance (MR) imaging guided nanoplatforms to track the biodistribution and therapeutic responses of NPs as well as to simultaneously trigger the generation of highly cytotoxic reactive oxygen species (ROS) necessary for excellent photodynamic therapy (PDT). After recording convincing therapeutic responses, we further evaluated the ability of Fe3O4@PGL NPs/Fe3O4@Lipid NPs for ferroptosis therapy (FT) via tumor microenvironment (TME) modulation for improved anticancer activity. We hypothesized that tumor-associated macrophages (TAMs) could significantly improve the efficacy of FT by accelerating the Fenton reaction in vitro. In our results, the Fe ions released in vitro directly contributed to the Fenton reaction, whereas the presence of RAW 264.7 macrophages further accelerated the ROS generation as observed by the fluorescence imaging. The significant increase in the ROS during the coincubation of NPs, endocytosed by HT-29 cells and RAW264.7 cells, further induced increased cellular toxicity of cancer cells.

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Yi-Da Tang

Low Thyroid Function Leads to Cardiac Atrophy With Chamber Dilatation, Impaired Myocardial Blood Flow, Loss of Arterioles, and Severe Systolic Dysfunction

Coronary Artery Disease: From Mechanism to Clinical Practice

Complementing Cancer Photodynamic Therapy with Ferroptosis through Iron Oxide Loaded Porphyrin-Grafted Lipid Nanoparticles

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