Background Recent studies show a mechanistic link between intestinal microbial metabolism of dietary phosphatidylcholine and coronary artery disease pathogenesis. Concentrations of a pro-atherogenic gut microbe-generated metabolite, trimethylamine N-oxide (TMAO), predict increased incident cardiovascular disease risks in multiple cohorts. TMAO concentrations are increased in patients with type 2 diabetes mellitus (T2DM), but their prognostic value and relation to glycemic control are unclear. Methods We examined the relationship between fasting TMAO and two of its nutrient precursors, choline and betaine, versus 3-year major adverse cardiac events and 5-year mortality in 1,216 stable patients with T2DM who underwent elective diagnostic coronary angiography. Results TMAO (4.4 µmol/L [interquartile range 2.8–7.7µmol/L] vs. 3.6[2.3–5.7µmol/L]; P<0.001) and choline concentrations were higher in individuals with T2DM versus healthy controls. Within T2DM patients, higher plasma TMAO was associated with a significant 3.0-fold increased 3-year major adverse cardiac events risk (P<0.001) and a 3.6-fold increased 5-year mortality risk (P<0.001). Following adjustments for traditional risk factors and high sensitivity C-reactive protein, glycated hemoglobin and estimated glomerular filtration rate, increased TMAO concentrations remained predictive of both major adverse cardiac events and mortality risks in T2DM patients (e.g. Quartiles 4 vs. 1, hazard ratio 2.05[95%CI 1.31–3.20], P<0.001; and 2.07[95%CI 1.37–3.14], P<0.001, respectively). Conclusion Fasting plasma concentrations of the pro-atherogenic gut microbe-generated metabolite TMAO are higher in diabetic patients and portend higher major adverse cardiac events and mortality risks independent of traditional risk factors, renal function, and relationship to glycemic control.
Fatty acid synthase (FASN) generates the de novo source of lipids for cell proliferation and is a promising cancer therapy target. Development of FASN inhibitors, however, necessitates a better understanding of sensitive and resistant cancer types to optimize patient treatment. Indeed, testing the cytotoxic effects of FASN inhibition across human cancer cells revealed diverse sensitivities. We show here that metabolic incorporation of glucose into specific complex lipid species strongly predicts FASN inhibitor sensitivity. We also show that the levels of one of these lipid classes, protein kinase C (PKC) stimulators diacylglycerols, are lowered upon FASN inhibitor treatment in sensitive compared to resistant cells and that PKC activators and inhibitors rescue cell death in sensitive cells and sensitize resistant cells, respectively. Our findings not only reveal a biomarker for predicting FASN sensitivity in cancer cells, but also a put forth a heretofore unrecognized mechanism underlying the anti-cancer effects of FASN inhibitors.
Cancer cells possess fundamentally altered metabolism that supports their pathogenic features, which includes a heightened reliance on aerobic glycolysis to provide precursors for synthesis of biomass. We show here that inositol polyphosphate phosphatase 1 (INPP1) is highly expressed in aggressive human cancer cells and primary high-grade human tumors. Inactivation of INPP1 leads to a reduction in glycolytic intermediates that feed into the synthesis of the oncogenic signaling lipid lysophosphatidic acid (LPA), which in turn impairs LPA signaling and further attenuates glycolytic metabolism in a feed-forward mechanism to impair cancer cell motility, invasiveness, and tumorigenicity. Taken together these findings reveal a novel mode of glycolytic control in cancer cells that can serve to promote key oncogenic lipid signaling pathways that drive cancer pathogenicity.
Compelling results from clinical trials supporting intensive risk-reduction therapies to reduce associated morbidity and mortality in patients with established atherosclerotic cardiovascular disease (ASCVD) provided the impetus for medical societies to integrate these evidence-based results into clinical practice guidelines. Current evidence, however, points toward gaps in the management of patients with established ASCVD. Some of these gaps are related to barriers to guideline implementation, and strategies are needed to overcome these barriers. In this review, we propose a framework incorporating comprehensive tools for enhanced guideline-directed management in secondary prevention of ASCVD. This aid includes a 13-point checklist with supporting educational and system-based tools for effective evidence-based pharmacological and nonpharmacological care. This proposed tool targets primary care providers and cardiologists in the outpatient setting who provide direct medical care for patients with established ASCVD.
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