Dietary unsaturated fat, protein, and carbohydrate have well-established effects on HDL (high-density lipoprotein) cholesterol levels, but whether these effects are connected causally to coronary hear Show more
Dietary unsaturated fat, protein, and carbohydrate have well-established effects on HDL (high-density lipoprotein) cholesterol levels, but whether these effects are connected causally to coronary heart disease (CHD) has been called into question. Protein-based minor HDL subspecies are emerging as novel and likely causal biomarkers, direct or inverse, for risk of CHD, diabetes, and other conditions. HDL-raising drugs such as CETP (cholesteryl ester transfer protein) inhibitors raise certain HDL subspecies that have adverse effects on CHD risk. We hypothesize that dietary unsaturated fat, protein, and carbohydrate differentially affect 15 minor protein-based HDL subspecies with diverse functionality in lipid metabolism, antioxidation, immunity, hemostasis, and protease inhibition. We analyzed the apo (apolipoprotein) A1 concentrations of 15 minor HDL subspecies after 4 weeks on each diet in 141 participants in the OmniHeart trial (Optimal Macronutrient Intake Trial to Prevent Heart Disease), a randomized 3-period crossover, controlled feeding study. The diet rich in carbohydrate contained 58% carbohydrate, 27% fat, and 15% protein, and the diets rich in unsaturated fat and protein replaced 10% of carbohydrate with unsaturated fat or protein, respectively. Unsaturated fat replacing dietary carbohydrate increased concentrations of apoA1 in lipid metabolism subspecies including HDL that contains apoA2, apoE, or apoC1 that has been associated with reduced risk of CHD. Protein replacing carbohydrate increased apoE HDL, consistent with lower CHD risk, and decreased concentrations of several other HDL subspecies that were associated with higher risk of CHD including HDL that contains PLMG (plasminogen), A2M (alpha-2-macroglobulin), or apoL1. Network analysis showed connections between functional groups of HDL subspecies that are quantitatively affected by dietary macronutrients. Replacing dietary carbohydrate with unsaturated fat or protein raised levels of protein-based HDL subspecies associated with lower risk of CHD or lowered the levels of those associated with higher risk of CHD. Minor HDL subspecies with diverse functions may mediate the association of dietary patterns with risk of CHD. URL: https://www.clinicaltrials.gov; Unique identifier: NCT00051350. Show less
With the gaining prevalence of obesity, related risks during pregnancy are rising. Inflammation and oxidative stress are considered key mechanisms arising in white adipose tissue (WAT) sparking obesit Show more
With the gaining prevalence of obesity, related risks during pregnancy are rising. Inflammation and oxidative stress are considered key mechanisms arising in white adipose tissue (WAT) sparking obesity-associated complications and diseases. The established anti-diabetic drug metformin reduces both on a systemic level, but only little is known about such effects on WAT. Because inhibiting these mechanisms in WAT might prevent obesity-related adverse effects, we investigated metformin treatment during pregnancy using a mouse model of diet-induced maternal obesity. After mating, obese mice were randomised to metformin administration. On gestational day G15.5, phenotypic data were collected and perigonadal WAT (pgWAT) morphology and proteome were examined. Metformin treatment reduced weight gain and visceral fat accumulation. We detected downregulation of perilipin-1 as a correlate and observed indications of recovering respiratory capacity and adipocyte metabolism under metformin treatment. By regulating four newly discovered potential adipokines (alpha-1 antitrypsin, Apoa4, Lrg1 and Selenbp1), metformin could mediate anti-diabetic, anti-inflammatory and oxidative stress-modulating effects on local and systemic levels. Our study provides an insight into obesity-specific proteome alterations and shows novel modulating effects of metformin in pgWAT of obese dams. Accordingly, metformin therapy appears suitable to prevent some of obesity's key mechanisms in WAT. Show less
The central melanocortin-3 and melanocortin-4 receptors (MC3R, MC4R) are key regulators of body weight and energy homeostasis. Herein, the discovery and characterization of first-in-class small molecu Show more
The central melanocortin-3 and melanocortin-4 receptors (MC3R, MC4R) are key regulators of body weight and energy homeostasis. Herein, the discovery and characterization of first-in-class small molecule melanocortin agonists with selectivity for the melanocortin-3 receptor over the melanocortin-4 receptor are reported. Identified via "unbiased" mixture-based high-throughput screening approaches, pharmacological evaluation of these pyrrolidine bis-cyclic guanidines resulted in nanomolar agonist activity at the melanocortin-3 receptor. The pharmacological profiles at the remaining melanocortin receptor subtypes tested indicated similar agonist potencies at both the melanocortin-1 and melanocortin-5 receptors and antagonist or micromolar agonist activities at the melanocortin-4 receptor. This group of small molecules represents a new area of chemical space for the melanocortin receptors with mixed receptor pharmacology profiles that may serve as novel lead compounds to modulate states of dysregulated energy balance. Show less
The role of rare variants in complex traits remains uncharted. Here, we conduct deep whole genome sequencing of 1457 individuals from an isolated population, and test for rare variant burdens across s Show more
The role of rare variants in complex traits remains uncharted. Here, we conduct deep whole genome sequencing of 1457 individuals from an isolated population, and test for rare variant burdens across six cardiometabolic traits. We identify a role for rare regulatory variation, which has hitherto been missed. We find evidence of rare variant burdens that are independent of established common variant signals (ADIPOQ and adiponectin, P = 4.2 × 10 Show less