Qinetal.NutritionJournal2012,11:2 http://www.nutritionj.com/content/11/1/2 RESEARCH Open Access MTHFR C677T and MTR A2756G polymorphisms and the homocysteine lowering efficacy of different doses of folic acid in hypertensive Chinese adults Xianhui Qin1, Jianping Li2, Yimin Cui3, Zeyuan Liu4, Zhigang Zhao5, Junbo Ge6, Deming Guan7, Jian Hu8, Yanni Wang9, Fumin Zhang10, Xin Xu11, Xiaobin Wang12, Xiping Xu1* and Yong Huo2* Abstract Background: This study aimed to investigate if the homocysteine-lowering efficacy of two commonly used physiological doses (0.4 mg/d and 0.8 mg/d) of folic acid (FA) can be modified by individual methylenetetrahydrofolate reductase (MTHFR) C677T and/or methionine synthase (MTR) A2756G polymorphisms in hypertensive Chinese adults. Methods: Atotalof480subjectswithmildormoderateessentialhypertensionwererandomlyassignedtothree treatmentgroups:1)enalaprilonly(10mg,controlgroup);2)enalapril-FAtablet[10:0.4mg(10mgenalaprilcombined with0.4mgofFA),lowFAgroup];and3)enalapril-FAtablet(10:0.8mg,highFAgroup),oncedailyfor8weeks. Results: After 4 or 8 weeks of treatment, homocysteine concentrations were reduced across all genotypes and FA dosage groups, except in subjects with MTR 2756AG /GG genotype in the low FA group at week 4. However, compared to subjects with MTHFR 677CC genotype, homocysteine concentrations remained higher in subjects with CT or TT genotype in the low FA group (P < 0.05 for either of these genotypes) and TT genotype in the high FA group (P < 0.05). Furthermore, subjects with TT genotype showed a greater homocysteine-lowering response than did subjects with CC genotype in the high FA group (mean percent reduction of homocysteine at week 8: CC 10.8% vs. TT: 22.0%, P = 0.005), but not in the low FA group (CC 9.9% vs. TT 11.2%, P = 0.989). Conclusions: This study demonstrated that MTHFR C677T polymorphism can not only affect homocysteine concentration at baseline and post-FA treatment, but also can modify therapeutic responses to various dosages of FA supplementation. Keywords: Folic acid supplementation, MTHFR C677T polymorphism, MTR A2756G polymorphism, Homocysteine- lowering efficacy Background hyperhomocysteinemia on the risk of CVD has received Traditionalrisk factors areestimatedtoaccountforonly great attention [3]. Our previous meta-analysis [4] sug- part ofcardiovascular disease (CVD) risk[1]. Non-tradi- gestedthatfolicacid(FA) supplementationcouldsignifi- tionalriskfactorssuchasincreasedhomocysteineconcen- cantly reduce the risk of stroke by 18% [Relative Risk trations are believed to be causally related to CVD [2]. (RR):0.82, 95% Confidence Interval (CI): 0.68-1.00; P = The interactive effect between hypertension and 0.045), and an even greater beneficial effect was seen in those trials with no or partial FA fortification (RR: 0.75, 95%CI:0.62-0.91;P=0.003).Furthermore,FAsupplemen- *Correspondence:[email protected];[email protected] 1InstituteofBiomedicine,AnhuiMedicalUniversity,Hefei,China tation was found to significantly reduce CVD risk in 2DepartmentofCardiologyandHeartCenter,PekingUniversityFirstHospital, patientswithendstagerenaldiseaseoradvancedchronic Beijing,China kidneydisease(creatinineclearance<30mL/min)by15% Fulllistofauthorinformationisavailableattheendofthearticle ©2012Qinetal;licenseeBioMedCentralLtd.ThisisanOpenAccessarticledistributedunderthetermsoftheCreativeCommons AttributionLicense(http://creativecommons.org/licenses/by/2.0),whichpermitsunrestricteduse,distribution,andreproductionin anymedium,providedtheoriginalworkisproperlycited. Qinetal.NutritionJournal2012,11:2 Page2of7 http://www.nutritionj.com/content/11/1/2 (RR:0.85;95CI:0.76-0.96,P=0.009),particularlyintrials examined at baseline and at 4 and 8 weeks of the trial. withnoorpartialFAfortification(RR:0.80;95%CI:0.65- MTHFR C677T and MTR A2756G genotypes were 0.99;p=0.04)[5].Thesefindingsunderscoretheimpor- determined for each study subject. tanceof effectivelyloweringhomocysteineconcentration Allanalyses were performedaccording to theprinciple inthepreventionofCVD,particularlyinpopulationswith ofintentiontotreat.Homocysteineandfolateconcentra- a highprevalence ofhypertensionandhyperhomocystie- tions in the natural logarithms (due to their positively nemiabutwithoutFAfortification. skewed distributions) were analyzed as continuous vari- Methylenetetrahydrofolate reductase (MTHFR) and ables.Therelativechangeofhomocysteineisexpressedas methionine synthase (MTR) are the main regulatory thechangeofhomocysteineafterFAtreatmentrelativeto enzymesforhomocysteinemetabolism.MTHFRconverts baseline concentration [(homocysteine after treatment- 5,10-methylene-THFinto5-methyl-THF. Polymorphism homocysteine at baseline)/(homocysteine at baseline)], ofMTHFRC677Tleadstoareductioninenzymeactivity, whichwasappliedastheprimaryoutcome.Multivariable whichmay lead to an increased concentration of plasma regression models were applied to compare the relative homocysteineandlowerlevelsofserumfolate,particularly change of homocysteine among different groups. The in those with low folate intake [6]. MTR catalyzes the additive modelswere used to testthe gene-gene interac- demethylationof5-methyl-THFtoTHFandtheremethy- tive effect between the MTHFR C677T and the MTR lation(usingthemethylgroupdonatedby5-methyl-THF) A2756G polymorphisms on the homocysteine-lowering of homocysteine to methionine. A common polymorph- efficacy of FA supplementationwithand without adjust- ism in the MTR gene (A2756G) also seems to influence mentsforthe potentialnon-geneticconfoundingfactors. plasmahomocysteine[7]. StatisticalanalysiswasperformedusingSASsoftwarever- Toourknowledge,nopublishedtrialhasinvestigatedif sion6.12(SASInstitute,Cary,NC,USA). the homocysteine-lowering efficacy of two commonly useddoses(0.4mg/dand0.8mg/d)ofFAcanbemodified Results by individual MTHFR C677T and MTG A2756G poly- Atotalof480patientswererecruitedforthisstudy.This morphismsinhypertensiveadultswithoutFAfortification. analysisexcluded35subjectswhowereineligibletoparti- In this report, we analyzed the data from a randomized, cipateinthetrial(7incontrolgroup:9inlowFAgroup;8 double-blind,controlledtrialthatincludedthreeinterven- inhighFAgroup)orwithoutdataofMTHFRgenotype(2 tion groups: 1) enalapril only (10 mg, control group); 2) inhighFAgroup)orMTRA2756G(1incontrolgroup;4 enalapril-FAtablet(10mgenalaprilcombinedwith0.4mg inlowFAgroup;4inhighFAgroup).Accordingly,atotal of FA, low FA group); and 3) enalapril-FA tablet (10 mg of445subjectswereincludedinourfinalanalysis. enalapril combined with 0.8 mg of FA, high FA group), The prevalence of MTHFRC677Tpolymorphisms677 oncedailyfor8weeks.WesoughttoassessifMTHFRor CC, 677 CT, and 677TT were 0.256, 0.497, and 0.247, MTRgenotypescaninfluenceachangeinplasma homo- respectively.Theprevalenceofthe2756AA,2756AG,and cysteineconcentrationinresponsetoeachofthetwodif- 2756GGgenotypeswere0.820,0.171,and0.009,respec- ferentdosagesofFAsupplementation. tively. This population had no significant deviations in genotype distributions from expected Hardy-Weinberg Methods equilibrium.Becausetherewereonlyfoursubjectshomo- This was a multicenter, randomized, double-blind con- zygous for the G2756 allele, the genotypes AG and GG trolled trial in hypertensive Chinese adults(clinicaltrials. werecombinedforstatisticalanalyses. gov; identifier: NCT00520247) [8]. The details regarding Table1showsthebaselinecharacteristicsofthesubjects “Subjects”,“Interventionanddatacollection”,“Laboratory accordingto MTHFRandMTRgenotypes.Subjectswith methods”,and“Statistical Analysis”havebeenpreviously MTHFR677TTgenotypehadsignificantlyhigherhomo- described[9].Briefly,480patientswithmildormoderate cysteine concentrations (median: 17.5 μmol/L) than did hypertensionwererecruitedfromsixhospitalsindifferent those withCT (11.5 μmol/L) or CC (11.1 μmol/L) geno- Chinese regions (Ha’erbin, Shanghai, Shenyang, Beijing, type (P < 0.01 for either of these genotypes). However, Xi’an,andNanjing)fromSeptember-December2005.Eli- homocysteine concentrations did not differ among sub- giblesubjectswererandomlyanddouble-blindlyassigned jectswithdifferentgenotypesoftheMTRgene.Therewas to one of the three treatment groups: 1) enalapril tablet no significant interactive effect between MTHFR C677T (10mg,controlgroup);2)enalapril-FAtablet(10mgena- andMTRA2756Gpolymorphismsonhomocysteinecon- lapril combined with 0.4 mg ofFA, low FA group); or 3) centrationsatbaseline. enalapril-FAtablet(10mgenalaprilcombinedwith0.8mg Compared to baseline, after 4 or 8 weeks of FA treat- ofFA,highFAgroup),oncedailyfor8weeks. ment decreases in plasma homocysteine concentrations Demographic and clinical information were obtained were seen across all MTHFR C677T genotypes and FA at baseline. Blood homocysteine concentrations were dosage groups (Table 2). Even after the treatment, Qinetal.NutritionJournal2012,11:2 Page3of7 http://www.nutritionj.com/content/11/1/2 Table 1Baseline characteristics ofparticipants by MTHFR C677Tor MTRA2756Gpolymorphism1 MTHFRC677T MTRA2756G All CC CT TT P AA AG/GG P N 445 114 221 110 365 80 Sex(Male),no.(%) 191(42.9) 51(44.7) 91(41.2) 49(44.5) 0.761 155(42.5) 36(45.0) 0.678 Age,yrs 57.0(9.8) 57.0(9.5) 56.4(9.6) 58.2(10.4) 0.284 57.0(9.8) 57.0(9.9) 0.971 BMI,kg/m2 25.7(3.5) 25.5(3.9) 25.8(3.3) 25.7(3.3) 0.758 25.8(3.5) 25.2(3.5) 0.137 SBP,mmHg 154.0(11.2) 154.0(11.5) 153.8(11.4) 154.5(10.5) 0.863 153.8(11.2) 155.1(11.2) 0.324 DBP,mmHg 93.0(8.3) 92.4(8.5) 93.4(7.8) 92.8(9.0) 0.530 93.3(8.0) 91.4(9.4) 0.052 FPG,mmol/L 5.5(1.3) 5.5(1.5) 5.4(1.2) 5.7(1.2) 0.312 5.5(1.3) 5.5(1.2) 0.865 TC,mmol/L 5.0(1.1) 5.0(1.4) 4.9(1.0) 5.1(1.0) 0.555 5.0(1.1) 4.9(1.1) 0.259 HDL-C,mmol/L 1.3(0.4) 1.3(0.4) 1.3(0.4) 1.3(0.4) 0.479 1.3(0.4) 1.3(0.3) 0.542 TG,mmol/L 1.7(1.2) 1.7(1.0) 1.8(1.2) 1.7(1.5) 0.970 1.8(1.3) 1.6(0.8) 0.252 Creatinine,μmol/L 69.5(17.5) 68.0(17.5) 69.2(17.3) 71.9(17.9) 0.233 69.2(17.9) 71.3(15.6) 0.334 Folate,nmol/L2 12.6(1.5)[12.3] 13.7(1.4)[13.4] 13.0(1.5)[12.6] 11.0(1.4)[10.8]* <0.001 12.8(1.5)[12.5] 11.9(1.5)[11.6] 0.107 Homocysteine,μmol/L2 13.2(1.6)[12.1] 11.2(1.4)[11.1] 12.0(1.4)[11.5] 18.8(1.8)[17.5]* <0.001 13.1(1.6)[12.1] 13.3(1.6)[12.6] 0.794 BMI=bodymassindex,SBP=systolicbloodpressure,DBP=diastolicbloodpressure,FPG=fastingplasmaglucose, TC=totalcholesterol,HDL-C=high-densitylipoproteincholesterol,TG=triglyceride; 1Means(SD);2geometricmean(anti-logSD),medianinbrackets;*SignificantlydifferentfromtheCTorCCgenotype,P<0.001. homocysteine concentrations in subjects with TT and were seen in all MTR A2756G genotypes and FA dosage CT genotypes remained significantly higher at week 4 or groups, except in subjects with AG/GG genotype in the week 8 (P < 0.05 for either of these genotypes) com- low FA group at week 4. However, neither the homocys- pared to those with CC genotype in the low FA group. teine concentration post-FA treatment nor the homo- In contrast, only subjects with TT genotype had higher cysteine-lowering response of FA supplementation was homocysteine concentrations compared to CC genotype affected by MTR A2756G polymorphism (Table 3). (P < 0.05) at week 4 or week 8 in the high FA group There was no significant interactive effect between (Table 2). MTHFR C677T and MTR A2756G polymorphisms on Furthermore, in the high FA group subjects with TT the homocysteine-lowering efficacy of different doses of genotypeshowedasignificantlygreaterhomocysteine-low- FA supplementation with or without adjustments for ering response than did subjects with CC genotype at potential non-genetic confounding factors. week 4 or week 8, with or without adjustments for the We obtained similar results when we restricted our relevantdemographicandclinicalcharacteristicsatbase- analysestosubjectswhofullycompliedwiththeprotocol line(mean percentreductionofhomocysteineat week4: (consuming at least 80% of all of the prescribed drugs) CC5.9%vs.TT:20.3%,P<0.001;meanpercentreduction during the treatment periods (per protocol set, n = 381) of homocysteine at week 8: CC 10.8% vs.TT: 22.0%, P = (datanotshown). 0.005). This heightened level of response was not shown inthelowFAgroup(meanpercentreductionofhomocys- Discussion teine at week 4: CC 8.8% vs. TT 10.6%, P = 0.769; mean Both a previous dose-finding trial [10] and a dose- percentreductionofhomocysteineatweek8:CC9.9%vs. responsetrial[11]havediscussedtherelationshipbetween TT11.2%,P=0.989)(Table2). homocysteine-lowering efficacy and optimal dose of FA The change in homocysteine was positively related to supplementation, but without considering the possible the baseline homocysteine concentrations in all geno- modifying effect of MTHFR C677T polymorphism. A types and FA dosage groups. When baseline homocys- more recent study [12] evaluated the effect of MTHFR teine also was adjusted, subjects with TT genotype C677Tpolymorphismonthe response to differentdoses seemed to have an attenuated homocysteine lowering ofFAsupplementation(0.1mg/d,0.4mg/d,4mg/dand4 response compared to subjects with CC genotype (P = mg/week)innorthernChinesewomenofchildbearingage 0.036 at week 4, P = 0.002 at week 8) in the low FA and reported that the MTHFR 677 TT genotype was an group, but not in the high FA group (P = 0.449 at week independentpredictorofplasmahomocysteineconcentra- 4, P = 0.414 at week 8). Our results did not substantially tions,irrespective ofFA dose, which was consistentwith alter with further adjustment for baseline folate concen- our results. However, the study population consisted of tration and folate change after treatment. young womenand the FA dosage category wasnot opti- Compared to baseline, after 4 or 8 weeks of FA treat- mal,beingeithertoolow(0.1mg/d)ortoohigh(4mg/d). ment, decreases in plasma homocysteine concentrations Furthermore, plasma homocysteine concentrations Qinetal.NutritionJournal2012,11:2 Page4of7 http://www.nutritionj.com/content/11/1/2 Table 2Responseofplasma homocysteine to different doses andduration offolicacid supplementation by MTHFR C677Tgenotypes N Homocysteine,μmol/L1 Differenceinchangeof Differenceinchangeof Percentrelativechangeofhomocysteine2 Homocysteineat4weeksby Homocysteineat8weeksby genotypes3 genotypes3 baseline 4weeks 8weeks b SE P b SE P Control CC 41 11.6(1.4)[11.3] 11.9(1.3)[11.8] 11.8(1.4)[11.3] 3.35(13.7) 2.2(14.0) ref ref . CT 73 11.0(1.4)[11.1] 11.2(1.4)[11.3] 11.3(1.4)[11.1] 2.25(13.2) 3.1(14.0) -3.69 2.94 0.209 -1.80 3.45 0.601 TT 38 18.1(1.9)[14.7]# 18.0(1.9)[15.6]# 18.1(1.8)[16.5]# 1.19(19.7) 3.3(27.0) -4.05 3.33 0.225 -0.52 3.91 0.895 Total 152 12.7(1.6)[12.0] 12.8(1.6)[11.7] 12.8(1.6)[12.0] 2.3(15.1) 2.9(18.0) LowFA CC 34 11.0(1.3)[11.0] 9.9(1.3)[9.4]* 9.8(1.3)[9.5]* -8.8(13.0) -9.9(14.9) ref ref CT 79 12.6(1.5)[11.4] 11.5(1.4)[11.1]*# 11.2(1.4)[10.7]*#$ -7.6(15.4) -9.7(16.8) 2.14 3.35 0.523 2.52 3.88 0.516 TT 34 17.5(1.8)[17.2]# 15.2(1.7)[14.2]*# 14.8(1.6)[14.2]*# -10.6(21.3) -11.2(27.1) -1.16 3.95 0.769 0.06 4.58 0.989 Total 147 13.2(1.6)[11.6] 11.8(1.5)[11.3]* 11.6(1.5)[10.8]*$% -8.6(16.4)% -10.1(19.1)% HighFA CC 39 11.0(1.4)[10.8] 10.2(1.4)[10.1]* 9.7(1.4)[9.8]*$ -5.9(14.2) -10.8(11.1) ref ref CT 69 12.3(1.3)[12.0] 10.8(1.3)[11.0]* 10.7(1.3)[10.5]* -11.2(14.5) -11.2(16.5) -6.21 3.19 0.052 -0.47 3.39 0.890 TT 38 20.8(1.8)[19.6]# 15.8(1.6)[14.2]*# 15.4(1.6)[14.1]*# -20.3(22.2)# -22.0(23.8)# -15.51 3.72 <0.001 -11.12 3.95 0.005 Total 146 13.7(1.6)[12.7] 11.7(1.5)[11.4]* 11.5(1.5)[10.8]*% -12.1(17.5)% -13.9(18.1)% 1Geometricmean(anti-logSD),medianinbrackets; 2[(Homocysteineaftertreatment-homocysteineatbaseline)/(homocysteineatbaseline)]*100,Mean(SD); 3Regressionmodelwasadjustedforage,sex,BMI,baselineSBP,DBP,creatinine,TG,HDL-C,TC,FPG,folate,folatechange,MTRA2756Gpolymorphismandstudy centers; *Significantlydifferentfrombaseline,P<0.05;$Significantlydifferentfromweek4,P<0.05; #SignificantlydifferentfromtheCCgenotype,P<0.05;%Significantlydifferentfromcontrolgroup,P<0.05. (7.2μmol/L)inthestudypopulation(withoutFAfortifica- homocysteine-lowering effect in all genotypes and FA tion)werelowerthanthoseobservedinaU.S.population dosagegroups.Subsequently,inthepresentstudy,after4 [13]andaChinesepopulation[14],whichmeansthatthis or 8 weeks of treatment, subjects with MTHFR 677 TT Chinesepopulationwasnotarepresentativepopulationin genotypehadasignificantlygreaterhomocysteine-lower- whichtoevaluatethehomocysteineloweringeffectofFA. ing response than did subjects with CC genotype in the In our study, we investigated if the change in plasma highFAgroup.However,suchaheightenedresponsewas homocysteineconcentrationinresponsetotwocommonly not shown in the low FA group. Furthermore, when we used physiological doses (0.4 mg/d and 0.8 mg/d) of FA furtheradjustedbaselinehomocysteine,subjectswithTT supplementationcouldbemodifiedbyindividualMTHFR genotype seemed to have a more attenuated homocys- C677TandMTGA2756Gpolymorphismsinamulticen- teine-loweringresponsethandid subjects withCCgeno- ter,randomized,double-blind,controlledtrialinhyperten- type in the low FA group but not in the high FA group. sive Chinese adults, whose homocysteine concentrations Themolecularmechanismsthatunderlieclinicalremedia- werecomparabletothegeneralChinesepopulation[14]. tionofenzymevariantsaretheabilityofelevatedlevelsof Consistentwithapreviousstudy[15],baselinehomocys- thecofactororsubstratetoovercomethebindingdefects teine concentration was the major determinant of the of Km mutants or to serve as a chemical chaperone to Qinetal.NutritionJournal2012,11:2 Page5of7 http://www.nutritionj.com/content/11/1/2 Table 3Responseofplasma Homocysteine to differentdoses andduration offolic acid supplementation by MTR A2756Ggenotypes N Homocysteine,μmol/L1 Differenceinchangeof Differenceinchangeof Percentrelativechangeofhomocysteine2 Homocysteineat4weeksby Homocysteineat8weeksby genotypes3 genotypes3 baseline 4weeks 8weeks b SE P b SE P Control AA 130 12.8(1.6)[12.0] 12.9(1.6)[11.7] 12.9(1.6)[12.0] 1.7(15.1) 2.33(17.7) ref ref . AG/GG 22 12.1(1.5)[11.7] 12.6(6.8)[1.6] 12.6(1.5)[12.2] 5.8(15.2) 6.32(20.1) 5.17 3.50 0.139 6.08 4.10 0.138 Total 152 12.7(1.6)[12.0] 12.8(1.6)[11.7] 12.8(1.6)[12.0] 2.3(15.1) 2.9(18.0) LowFA AA 116 12.9(1.6)[11.5] 11.5(1.5)[11.1]* 11.3(1.5)[10.6]* -9.4(16.5) -10.2(19.4) ref ref AG/GG 31 14.1(1.5)[14.5] 13.1(1.5)[12.3] 12.5(1.5)[12.3]*$ -5.4(15.9) -9.6(18.3) 3.73 3.33 0.262 -0.06 3.86 0.989 Total 147 13.2(1.6)[11.6] 11.8(1.5)[11.3]* 11.6(1.5)[10.8]*$% -8.6(16.4)% -10.1(19.1)% HighFA AA 119 13.7(1.6)[12.7] 11.8(1.5)[11.4]* 11.5(1.4)[10.8]*$ -12.3(16.2) -14.4(17.3) ref ref AG/GG 27 13.5(1.8)[12.9] 11.6(1.5)[11.4]* 11.5(1.5)[10.7]* -11.5(22.7) -11.9(21.5) 1.30 3.39 0.700 2.72 3.60 0.450 Total 146 13.7(1.6)[12.7] 11.7(1.5)[11.4]* 11.5(1.5)[10.8]*% -12.1(17.5)% -13.9(18.1)% 1Geometricmean(anti-logSD),medianinbrackets; 2[(Homocysteineaftertreatment-homocysteineatbaseline)/(homocysteineatbaseline)]*100,Mean(SD); 3Regressionmodelwasadjustedforage,sex,BMI,baselineSBP,DBP,creatinine,TG,HDL,TC,FPG,MTHFRC677Tpolymorphismandstudycenters; *Significantlydifferentfrombaseline,P<0.05;$Significantlydifferentfromweek4,P<0.05; %Significantlydifferentfromcontrolgroup,P<0.05. improve the stability of mutant enzyme variants [16,17]. 2mg/dfor3weeksthandidCCsubjects.Amongsubjects Our results further suggest that daily 0.4 mg FA supple- who were not previously taking multivitamins, the mean mentationmaybeinsufficient,andthatadailydoseof0.8 reductions in plasma total homocysteine concentrations mgFAmayberequiredtolowerhomocysteineconcentra- were -20.9%, -13.1%, and -7.1% in persons with the TT, tioninsubjectswithTTgenotype. CT,andCCgenotypes,respectively(P=0.019forTTver- Furthermore,afterthetreatment,subjectswithCTgen- susCC).Asimilarresultalsohasbeenreportedinastudy otype had significantly higher homocysteine concentra- inTaiwan,inwhich5mgofFAdailyweresupplemented tions than those with CC genotype in the low FA group, for 8 wks [19]. Our results appear to be consistent with andhadsimilarhomocysteineconcentrationsasCCsub- thesestudies. However,the studyofWoodside etal.[20] jects in the high FA group. These results indicate that showedthatTTsubjectsarelessresponsivetotheeffects daily0.8mgFAalsomaybenecessaryforloweringhomo- ofFAandB-vitaminsupplementation(daily1mgFA,7.2 cysteine concentration in subjects with CT genotypes. mgVitaminB6,and0.02mgVitaminB12for8wks.)than However, although they showed a greater homocysteine CC subjects. And Ho GY et al. [21] also reported that lowering effectthansubjects with CC genotype,subjects MTHFR C677T did not impact the total homocysteine- withTTgenotypestillhadthehighesthomocysteinecon- loweringeffectofvitamins(daily2.5mg FA,25mgVita- centrations even after 8 weeks of high FA treatment. minB6,and0.5mgVitaminB12for1year)inastudyper- Therefore, other therapeutic strategies need to be devel- formed in Singapore. The reasons for the disparities opedtoreducetheriskassociatedwithhyperhomocystei- amongtheresultsofthesestudiesareunknown.Additional nemiainTTsubjects. largedose-findingstudiesarerequiredtofurtherelucidate Infact,Malinowetal.[18]firstreportedthatTTsubjects thepossiblecontributoryfactors,suchasfolatestatus,eth- experiencedmuchgreaterdecreasesinplasmatotalhomo- nicity of the participants, and in particular the possible cysteineconcentrationsafterreceivingFAatadoseof1or effectsofconcomitantvitaminB6and/orB12. Qinetal.NutritionJournal2012,11:2 Page6of7 http://www.nutritionj.com/content/11/1/2 Our study showed that neither homocysteine concen- andalargersamplesizeareneededtoconfirmourresults. tration at baseline or post-FA treatment nor the homo- The association between angiotensin-converting enzyme cysteine lowering response of FA supplementation was inhibitortreatment and the change of homocysteine was affected by MTR A2756G polymorphism. However, controversial [28,29]. We did not observe a significant there was a significant homocysteine reduction in MTR relationship between enalapril treatment and homocys- 2756 AG/GG genotype after 4 weeks of FA supplemen- teinechangeinourstudy..Additionallargesamplestudies tation in the high FA (0.8 mg/d) group, but not in the alsoareneededtofurtherexaminetherelationshipofena- low FA (0.4 mg/d) group, which means that we cannot lapriltreatmentwithhomocysteinechangeandthepossi- exclude the possible role of MTR A2756G polymorph- ble interactiveeffects between enalaprilandfolic acidon ism in the homocysteine metabolic pathway. thechangeinhomocysteine. Overall,ourresultssuggestthatdaily0.8mgFAmaybe necessary to lower homocysteine concentration for Chi- Conclusions nese hypertensive subjects with CT or TT genotype, We demonstrated that MTHFR C677T polymorphisms which have important clinical and publichealthimplica- can not only affect plasma homocysteine levels at base- tions. Increased homocysteine concentration has been line and post-FA treatment, but also modify therapeutic implicatedasariskfactorforneuraltubedefects(NTDs) response to various dosages of FA supplementation. and Downs syndrome [22,23]. A study by Wilcken et al. These findings, if confirmed by additional studies, may reported that the frequency of CT and TT genotypes in enable medical providers to offer more personalized Hungarywasabout45%and11.1%,respectively[24].Two care and advice on FA supplementation for a given Hungarianinterventiontrials[25,26],whichusedamulti- individual. vitamin containing 0.8 mg folic acid, found a significant reductioninthefirstoccurrenceofurinarytractandcar- Listofabbreviations diovascular abnormalities beyond the 90% reduction of CI:ConfidenceInterval;CVD:cardiovasculardisease;FA:folicacid;MTHFR: NTDs. There is no evidence that 0.4 mg folic acid has a methylenetetrahydrofolatereductase;MTR:methioninesynthase;RR:Relative similar preventive effect on defects beyond NTDs. Our Risk. results further suggest that there may be an additional Acknowledgements benefit if a daily dose of 0.8 mg, but not 0.4 mg, of folic ThestudywassupportedbyBeijingHuaanfoBiomedicalResearchCenter acidcouldbeusedinwomen, particularly inpopulations Inc.,Beijing,ChinaandinpartbyagrantfromAnhuiProvincialMinistryof Education(No.2002kj174ZC),AnhuiProvincialMinistryofScienceand withahighfrequencyofTallele(suchastheChinese)and Technology,AnhuiMedicalUniversityBiomedicalInstitute.Thesponsorsdid without folic acid fortification. Furthermore, identifying notparticipateinthedesignorconductofthestudy;collection, TT or CT subjects and providing them with an optimal management,analysis,andinterpretationofthedata;orpreparation,review, andapprovalofthemanuscript.Wegratefullyacknowledgetheassistance dose of folic acid also may be very important in the pre- andcooperationofthefacultyandstaffoftheAnhuiMedicalUniversityand vention of CVD [4,27] in populations without folic acid thankalloftheparticipantsinourstudy.Thisstudywasconductedin fortification. accordancewiththecurrentregulationsofthePeople’sRepublicofChina. Ourstudyhasthefollowingstrengths.Thiswasarando- Authordetails mized, multicenter and double blind trial. This study 1InstituteofBiomedicine,AnhuiMedicalUniversity,Hefei,China. simultaneouslyassessedtheeffectofFAdosagesandgene 2DepartmentofCardiologyandHeartCenter,PekingUniversityFirstHospital, Beijing,China.3DepartmentofPharmacy,PekingUniversityFirstHospital, polymorphisms on homocysteine-lowering efficacy. Our Beijing,China.4DepartmentofPharmacy,FirstAffiliatedHospitalofAcademy trial studied two commonly used doses of FA, which are ofMilitaryMedical,SciencesofChina,Beijing,China.5Departmentof of important clinical and public health relevance. How- Pharmacy,BeijingTiantanHospital,CapitalMedicalUniversity,Beijing,China. 6DepartmentofCardiology,ZhongshanHospitalFudanUniversity,Shanghai, ever, cautionis needed ingeneralizing ourfindings from China.7DepartmentofCardiology,FirstClinicalMedicalCollegeofHarbin thishypertensiveChinesepopulationtootherpopulations. MedicalUniversity,Harbin,China.8DepartmentofCardiology,FirstAffiliated Furthermore, though similar resultswere obtained when HospitalofChinaMedicalUniversity,Shenyang,China.9Departmentof Cardiology,FirstAffiliatedHospitaloftheSchoolofMedicine,Xi’anJiaotong we restrictedouranalysestosubjectswhofullycomplied University,Xi’an,China.10DepartmentofCardiology,FirstAffiliatedHospital with the protocol during the treatment periods, we still ofNanjingMedicalUniversity,Nanjing,China.11GuangdongInstituteof couldnotfullyexcludetheeffectofnon-compliancepro- Nephrology,SouthernMedicalUniversity,Guangzhou,China.12MaryAnn andJ.MilburnSmithChildHealthResearchProgram,Children’sMemorial blemonourresults. Also,itshouldbenoted that wedid HospitalandChildren’sMemorialResearchCenter,DepartmentofPediatrics, notmeasure other polymorphismsin the folate pathway, NorthwesternUniversityFeinbergSchoolofMedicine,Chicago,USA. such as the MTHFR A1298C variant. Furthermore, the Authors’contributions treatmentperiodwithFAwasonly8weeksandthesam- QX,LJ,CY,LZ,ZZ,GJ,GD,HJ,WY,ZF,XX,WX,XXandHYparticipatedinthe ple size was rather small when sub-grouped into various designofthestudy;LJ,CY,LZ,GJ,GD,HJ,WY,ZF,HYconductedthestudy; groups(control,lowFAandhighFA)forgeneticassocia- QX,LJ,XXu,WX,XXuandYHanalyzeddata;QX,LJ,CY,LZ,ZZ,GJ,GD,HJ, WY,ZF,XX,WX,XXandHYwrotethepaper;allauthorsreadandapproved tionstudies.Futurestudieswithlongertreatmentduration thefinalmanuscript. Qinetal.NutritionJournal2012,11:2 Page7of7 http://www.nutritionj.com/content/11/1/2 Competinginterests 17. AmesBN,Elson-SchwabI,SilverEA:High-dosevitamintherapystimulates Theauthorsdeclarethattheyhavenocompetinginterests. variantenzymeswithdecreasedcoenzymebindingaffinity(increasedK (m)):relevancetogeneticdiseaseandpolymorphisms.AmJClinNutr Received:26August2011 Accepted:10January2012 2002,75:616-658. Published:10January2012 18. 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