PMID-sentid Pub_year Sent_text comp_official_name comp_offsetprotein_name organism prot_offset 27451002-0 2016 Short-term isocaloric fructose restriction lowers apoC-III levels and yields less atherogenic lipoprotein profiles in children with obesity and metabolic syndrome. Fructose 22-30 apolipoprotein C3 Homo sapiens 50-58 31247940-2 2019 The effects of sustained consumption of dietary fructose compared with those of sustained glucose consumption on circulating apoCIII and large TRL particles have not been reported. Fructose 48-56 apolipoprotein C3 Homo sapiens 125-132 31247940-4 2019 The subjects consuming fructose exhibited higher fasting and postprandial plasma apoCIII concentrations than the subjects consuming glucose (p < 0.05 for both). Fructose 23-31 apolipoprotein C3 Homo sapiens 81-88 31247940-7 2019 The increases of both postprandial apoCIII and TG in large TRL subfractions were associated with fructose-induced increases of fasting cholesterol in the smaller LDL particles. Fructose 97-105 apolipoprotein C3 Homo sapiens 35-42 31247940-8 2019 In conclusion, 10 weeks of fructose consumption increased the circulating apoCIII and postprandial concentrations of large TRL particles compared with glucose consumption. Fructose 27-35 apolipoprotein C3 Homo sapiens 74-81 30723097-0 2019 Fructose-induced hypertriglyceridemia in rhesus macaques is attenuated with fish oil or ApoC3 RNA interference. Fructose 0-8 apolipoprotein C3 Homo sapiens 88-93 31789670-3 2020 We reviewed the effects of fructose consumption on apoCIII levels and the role of apoCIII in fructose-induced dyslipidemia. Fructose 27-35 apolipoprotein C3 Homo sapiens 51-58 31789670-3 2020 We reviewed the effects of fructose consumption on apoCIII levels and the role of apoCIII in fructose-induced dyslipidemia. Fructose 93-101 apolipoprotein C3 Homo sapiens 82-89 31789670-4 2020 RECENT FINDINGS: Consumption of fructose increases circulating apoCIII levels compared with glucose. Fructose 32-40 apolipoprotein C3 Homo sapiens 63-70 31789670-5 2020 The more marked effects of fructose compared with glucose on apoCIII concentrations may involve the failure of fructose consumption to stimulate insulin secretion. Fructose 27-35 apolipoprotein C3 Homo sapiens 61-68 31789670-6 2020 The increase in apoCIII levels after fructose consumption correlates with increased postprandial serum triglyceride. Fructose 37-45 apolipoprotein C3 Homo sapiens 16-23 31789670-7 2020 Further, RNA interference of apoCIII prevents fructose-induced dyslipidemia in nonhuman primates. Fructose 46-54 apolipoprotein C3 Homo sapiens 29-36 31789670-8 2020 Increases in postprandial apoCIII after fructose, but not glucose consumption, are positively associated with elevated triglycerides in large triglyceride-rich lipoproteins and increased small dense LDL levels. Fructose 40-48 apolipoprotein C3 Homo sapiens 26-33 31789670-9 2020 SUMMARY: ApoCIII might be causal in the lipid dysregulation observed after consumption of fructose and fructose-containing sugars. Fructose 90-98 apolipoprotein C3 Homo sapiens 9-16 31789670-9 2020 SUMMARY: ApoCIII might be causal in the lipid dysregulation observed after consumption of fructose and fructose-containing sugars. Fructose 103-111 apolipoprotein C3 Homo sapiens 9-16 31789670-10 2020 Decreased consumption of fructose and fructose-containing sugars could be an effective strategy for reducing circulating apoCIII and subsequently lowering triglyceride levels. Fructose 25-33 apolipoprotein C3 Homo sapiens 121-128 31789670-10 2020 Decreased consumption of fructose and fructose-containing sugars could be an effective strategy for reducing circulating apoCIII and subsequently lowering triglyceride levels. Fructose 38-46 apolipoprotein C3 Homo sapiens 121-128 16985262-2 2007 We show in hamsters that high-fructose feeding stimulated forkhead box O1 (FoxO1) production and promoted its nuclear redistribution in liver, correlating with augmented apolipoprotein C-III (apoC-III) production and impaired triglyceride metabolism. Fructose 30-38 apolipoprotein C3 Homo sapiens 170-190 16985262-2 2007 We show in hamsters that high-fructose feeding stimulated forkhead box O1 (FoxO1) production and promoted its nuclear redistribution in liver, correlating with augmented apolipoprotein C-III (apoC-III) production and impaired triglyceride metabolism. Fructose 30-38 apolipoprotein C3 Homo sapiens 192-200