This study compared the anti-atherosclerosis effects of the long-term ingestion of 2,3-dihydroxybenzoic acid (2,3-DHBA) and 3,4-dihydroxybenzoic acid (3,4-DHBA). Six group diets [normal diet (ND), high-fat diet (HFD), 2,3- and 3,4-DHBA high and low diets] were administered to Sprague-Dawley rats for six weeks. The final body weights of the six groups were similar. The total cholesterol, high, and low-density lipoprotein cholesterol levels in the blood plasma of the HFD group were higher than those in the ND group. The plasma levels in the 2,3- and 3,4-DHBA groups were similar to those in the HFD group. HFD, 2,3- and 3,4-DHBA groups showed accumulation of lipid droplets in liver tissues, and the aorta of the HFD group was thicker than that of the ND group, but the recovered aortic thickness of 2,3- and 3,4-DHBA groups was similar to that of the ND group. In addition, in vitro and in vivo antioxidant activities were the highest in the 3,4-DHBA group. Therefore, the daily intake of 2,3-DHBA and 3,4-DHBA may have anti-atherosclerosis effects.

1 Sies H, "Vitamins E and C, β-carotene, and other carotenoids as antioxidants" 62 (62): 1315S-1321S, 1995

2 Panayiotis P, "Theoretical and experimental investigation of the oxidized and oxygenated forms of pyrocatechuic acid (2,3-dihydroxybenzoic acid)" 94 : 169-179, 2012

3 Han JH, "The role of cardiac risk factor burden in diagnosing acute coronary syndromes in the emergency department setting" 49 (49): 145-152, 2007

4 Connor WE, "The interrelated effects of dietary cholesterol and fat upon human serum lipid levels" 43 : 1291-1696, 1994

5 Ragai K, "The distribution of o-pyrocatechuic acid in plants" 50 (50): 734-, 1963

6 Kim SH, "Synthesis of a new antioxidant, 3,4-di-tertbutylcatechol, and its in vivo behavior" Chonnam National University 2021

7 Kim HS, "Synthesis and in vivo evaluation of catechol derivatives as anti-atherosclerotic agents" Chonnam National University 2020

8 Wu JH, "Suppression of diet-induced hypercholesterolemia by trutle jelly, a traditional Chinese functional food, in rats" 320304-, 2012

9 Rice ECA, "Structure antioxidant activity relationship of flavonoid and phenolic acid" 20 (20): 933-956, 1996

10 Pellizzon M, "Short-term weight cycling in aging female rats increase rate of weight gain but not body fat content" 24 : 226-245, 2000

11 Hodis HN, "Reduction in carotid arterial wall thickness using lovastatin and dietary therapy : A randomized controlled clinical trial" 124 : 548-556, 1996

12 Kim HT, "Prevalence and incidence of atherosclerotic cardiovascular disease and its risk factors in Korea : A nationwide populationbased study" 19 : 1112-, 2019

13 Tanaka T, "Potential cancer chemopreventive activity of protocatechuic acid" 3 (3): 27-33, 2011

14 Ahmed MS, "Physiological studies on the risk factors responsible for atherosclerosis in rats" 8 (8): 144-151, 2010

15 Canbay HS, "Phenolic content of some dietetic tea products in Turkey" 15 (15): 350-354, 2017

16 Amiot M, "Phenolic composition and browning susceptibility of various apple cultivars at maturity" 57 : 957-962, 1992

17 Zălar DM, "Pharmacological effects of methotrexate and infliximab in a rats model of diet-induced dyslipidemia and beta-3 overexpression on endothelial cells" 10 (10): 3143-3160, 2021

18 Khan AK, "Pharmacological activities of protocatechuic acid" 72 (72): 643-650, 2015

19 Kim HY, "Oxidative stress and atherosclerosis" 15 (15): 1-14, 2000

20 Niki E, "Oxidation of lipids. VIII. Synergistic inhibition of oxidation of phosphatidylcholine liposomes in aqueous dispersion by vitamin E and vitamin C" 58 : 1971-1975, 1985

21 Song J, "New progress in the pharmacology of protocatechuic acid : A compoind ingested in daily foods and herbs frequently and heavily" 161 : 105-109, 2020

22 Rosenfeld L, "Lipoprotein anaylsis" 113 : 1101-1110, 1989

23 Ji H, "LC-MS based urinary metabolomics study of the intervention effect of aloe-emodin on hyperlipidemia rats" 156 : 104-115, 2018

24 Libby P, "Inflammation and Atherosclerosis" 105 : 1135-1143, 2002

25 Liu CL, "In vivo protective effect of protocatechuic acid on tert-butyl hydroperoxide-induced rat hepatotoxicity" 40 (40): 635-641, 2002

26 진현화 ; 양정례 ; 정종화 ; 김양하, "Hypocholesterolemic effects of green tea in cholesterol-fed rats" 33 (33): 47-51, 2004

27 Linsel-Nitschke P, "HDL as target in the treatment of atherosclerotic cardiovascular disease" 4 (4): 193-205, 2005

28 Singal PK, "Free radicals in health and disease" 84 (84): 121-122, 1988

29 Valco M, "Free radical and antioxidants in normal physiological functions and human disease" 39 (39): 44-84, 2007

30 Pietta PG, "Flavonoids as antioxidants" 63 (63): 1035-1042, 2000

31 Excobar-Cévoli R, "Flavonoids Biosynth. Hum" 371-391, 2017

32 Friedwald W, "Estimation of the concentration of low-density lipoprotein cholesterol in plasma, without use of the preparative ultracentrifuge" 18 : 499-502, 1972

33 이재준 ; 박미란 ; 김아라 ; 이명렬, "Effects of ramie leaves on improvement of lipid metabolism and anti-obesity effect in rats fed a high fat/high cholesterol diet" 43 (43): 83-90, 2011

34 구현정 ; 강세찬 ; 장선아 ; 권정은 ; 손은수 ; 손은화, "Effects of protocatechuic acid derived from Rubus coreanus on the lipid metabolism in high cholesterol diet-induced mice" 27 (27): 271-278, 2014

35 최정화 ; 송원영, "Effects of Oenanthe javanica and Allium tuberosum on lipid content in rats fed a high-fat⋅highcholesterol diet" 26 (26): 302-308, 2016

36 Jayasooriya AP, "Effects of Momordica charantia powder on serum glucose levels and various lipid parameters in rats fed with cholesterol-free and cholesterol enriched diets" 72 : 331-336, 2000

37 김혜윰 ; 김현준 ; 홍미현 ; 고선미 ; 황승미 ; 임동중 ; 안유미 ; 이호섭 ; 강대길 ; 이윤정, "Effect of Korean red ginseng on hypertriglyceridemia in high fat/high cholesterol diet rat model" 32 (32): 43-50, 2018

38 이재준 ; 하태만 ; 이유미 ; 김아라 ; 이명렬, "Effect of Brassica rapa sprouts on lipid metabolism in rats fed high fat diet" 39 (39): 669-676, 2010

39 Cyrus T, "Disruption of the 12/15-lipoxygenase gene diminishes atheroscelrosis in apoE-deficient mice" 103 (103): 1597-1604, 1999

40 Fiordaliso M, "Dietary oligofructose lowers triglycerides. phospholipids and cholesterol in serum and very low density lipoprotein of rats" 30 (30): 163-167, 1995

41 Anderson JW, "Dietary fiber and coronary heart disease" 29 : 95-147, 1990

42 Dodge JA, "Dietary fat and gastrointestinal function" 48 : S8-S16, 1994

43 Kim GD, "Determination of bioactivity substances and functional evaluation of conventionally and organically cultivated hot pepper (Capsicum annuum L.)" Chnnam National University 2013

44 Griewahin J, "Delta-tocopherol as an antioxidant in lard" 25 : 26-27, 1948

45 Shatoor AS, "Crataegus Aronia protects and reverses vascular inflammation in h high-fat diet rat model by an antioxidant mechanism and modulating serum levels of oxidized low-density lipoprotein" 57 (57): 38-48, 2019

46 Vyas P, "Coronary atherosclerosis in noncardiac deaths: An autopsy study" 6 (6): 5-9, 2015

47 김세정 ; 박시훈 ; 이재준, "Comparison of the cholesterollowering effects between loquat leaf and fruit extract in rats fed a high-cholesterol diet" 29 (29): 495-505, 2018

48 Jones P, "Comparative dose efficacy study of atorvastatin versus simvastatin, pravastatin, lovastatin, and fluvastatin in patients with hypercholesterolemia (the CURVES stidy)" 81 : 582-587, 1998

49 이민정 ; 최혜란 ; 이정현 ; 이수정 ; 권지웅 ; 최경민 ; 차정단 ; 황승미 ; 박종혁 ; 이상천 ; 박필재 ; 이태범, "Co-treatment with fermented black raspberry and red ginseng extracts improves lipid metabolism and obesity in rats fed with a high-fat and high-cholesterol diet" 47 (47): 364-372, 2015

50 McFarlane SI, "Clinical review 145 : Pleiotropic effects of statins : Lipid reduction and beyond" 87 : 1451-1458, 2002

51 Jin MR, "Chemical synthesis and in vivo behavior of 3-tert-butyl-6-pentylcatechol" Chonnam National University 2017

52 Pacheco LA, "Chemical composition, antioxidant properties, and thermal stability of a phytochemical enriched oil from Acai (Euterpe oleracea Mart.)" 56 (56): 4631-4636, 2008

53 Glowinska B, "Cardiovascular risk factors in children with obesity, hypertension and diabetes: lipoprotein (a) levels and body mass index correlate with family history of cardiovascular disease" 161 : 511-518, 2002

54 Goldstein JL, "Binding site on macrophages that mediates uptake and degradation of acetylated low density lipoprotein, producing massive cholesterol deposition" 76 (76): 333-337, 1979

55 Nwagha UI, "Atherogenic index of plasma as useful predictor of cardiovascular risk among postmenopausal women in Enugu, Nigeria" 10 (10): 248-252, 2010

56 Nwagha UI, "Atherogenic index of plasma : a significant indicator for the onset of atherosclerosis during menopause in hypertensive females of South East Nigeria" 10 (10): 67-71, 2005

57 Muljono RAB, "Assay of 2,3-dihydroxybenzoic acid and related compounds in plant materials by high-performance liquid chromatography" 927 : 39-45, 2001

58 Zhang S, "Antioxidant effects of protocatechuic acid and protocatechuic aldehyde: Old wine in a new bottle" 6139308-, 2021

59 Moon JH, "Antioxidant activity of caffeic acid and dihydrocaffeic acid in lard and human low-density lipoprotein" 46 : 5062-5065, 1998

60 George S, "Antibiotic activity of 2,3-dihydroxybenzoic acid isolated from Flacourita inermis fruit against multi drug resistant bacteria" 4 : 126-130, 2011

61 임경환 ; 백승아 ; 최재혁 ; 이태수, "Anti-hyperlipidemic and anti-obesity effects of Sparassis latifolia fruiting bodies in high-fat and cholesterol-diet-induced hyperlipidemic rats" 19 (19): 23-32, 2021

62 Lee YG, "Absorption and metabolism of an urushiol derivative, 3-pentylcatechol in rat plasma" Chonnam National Univertisy 2013

63 Park HM, "Absorption and metabolism of 2,3- and 3,4-dihydroxybenzoic acids in rat blood plasma" Chonnam National University 2016

64 Benny PJ, "2,3-Dihydroxybenzoic acid: an effective antifuncal agent isolated from Flacourita inermis fruit" 2 : 101-105, 2010