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Supplementary Methods
Patient selection
CVD was defined by the presence of at least one of the following features: (I)
myocardial infarction, proven by at least two of the following criteria: (a) classical
symptoms (chest pain that may radiate, oppressive pain, nausea, sweating and
absence of chest-wall tenderness on palpation), (b) specific electrocardiographic
abnormalities, (c) elevated cardiac enzymes (e. g. troponin and elevated creatine-
kinase (CK) and its myocardial band enzyme (CK-MB), levels); (II) percutaneous
coronary intervention or other invasive procedures; (III) coronary artery bypass grafting;
(IV) angina pectoris, diagnosed as classical symptoms (recurrent attacks of retrosternal
pain brought on by effort and emotion and relieved by rest and the administration of
nitroglycerin) in combination with at least one unequivocal result of one of the following:
(a) exercise test, (b) nuclear scintigram, (c) dobutamine stress ultrasound, (d) a more
than 70% stenosis on a coronary angiogram or (f) requiring treatment (V) ischemic
stroke, demonstrated by CT- or MRI scan; (VI) documented transient ischemic attack.
Blood pressure was measured using an oscillometric blood pressure device (Omron,
Hoofddorp, The Netherlands).
RNA isolation and RT-PCR analysis
Total cellular RNA from the buffy coat fraction was extracted using TriZol (Life
Technologies, The Netherlands) according to manufacturer’s protocol and reverse
transcribed using random primers and iScript reverse transcriptase (BioRad). The
conditions were 5 min 25°C, 30 in 42°C, 5 min 85°C. mRNA expression levels were
measured using SensiFast Sybr Green master mix (GE-Biotech) on CFX386 system
(BioRab, the Netherlands). Primers were designed using Primer3 software and were
exon-intron boundary crossing (Table S1). RT-PCR conditions were: 10 min 95°C
followed by 40 cycles 15’ 95°C 30’ 60°C and finally a melt reaction going from 65°-95°C
in 5’ per grade. Gene expression was calculated using the 2ΔΔCt method using 36B4
as reference gene.
Immunohistochemistry
Sections were fixed in 4% paraformaldehyde and subsequently embedded in paraffin.
For immunostaining, paraffin sections were deparaffinised before endogenous
peroxidase quenching. After blocking with Ultra V Block (Thermo Fischer Scientific,
Fremont, CA, USA) slides were incubated with anti-MCF2L 1:250 (rabbit polyclonal anti-
MCF2L, WH0023263M1, Sigma, Munich, Germany) overnight at 4ºC. Staining was
performed with anti-rabbit Horse Radish Peroxidase (HRP)-labelled IgG (ImmunoLogic,
Duiven, The Netherlands) followed by Bright DAB+ visualization (ImmunoLogic, Duiven,
The Netherlands). Counterstaining was performed using hematoxylin and slides were
cover-slipped with VectaMount (Vector Laboratories, Burlingname, CA, USA). Positive
controls consisted of samples of human tonsil. Negative controls consisted of
experimental tissues stained without the addition of primary antibodies following the
same protocol. Microscopy pictures were analyzed using Adobe Photoshop CS4.
To explore cellular localization of MCF2L in human atherosclerotic lesions the
sequential alkaline phosphatase (AP) double staining method was used as described
elsewhere [1]. MCF2L was stained in combination with either smooth muscle cell α-actin
(SMA) (1:500; mouse 1A4 antibody, DAKO, Glostrup, Denmark), macrophage CD68
(1:100; mouse monoclonal anti human CD68 PG-M1, DAKO, Heverlee, Belgium),
endothelial cell CD34 (1:1000; mouse anti human CD34Q, Bend10, ThermoFischer
Scientific, Waltham, MA, USA), antigen presenting cells (CD11c; 1:50; mouse
monoclonal 5D11, Monosan, Uden, The Netherlands), CD8 lymphocytes (1:50; mouse
monoclonal anti-human CD8, CD8/144B, DAKO, Heverlee, Belgium) and rabbit anti
human CD3 (1:5000;, IgG monoclonal SP7, ThermoFisher Scientific).
Visualization was performed with vector blue (Vector Laboratories) for MCF2L and
vector red (Vector Laboratories) for SMA, CD68, CD34, CD3, CDC11c and CD8 and
cover slipped.
Figure S2: mRNA expression of MCF2L, RAC1 and RHOA in total circulating white
blood cells in 4 heterozygous carriers of the MCF2L c.2066A>G; p.(Asp689Gly) variant
and one non-carrier relative. RNA expression was analyzed in three white blood cell
RNA fractions per person. MCF2L expression was significantly decreased (P<0.05) in
carriers of the variant.
Figure S3: Specifity of immunostaining of MCF2L.A. Single staining of MCF2L (brown) in control tonsil tissue. B. Negative control in tonsil tissue using only the secondary antibody.
A B
Table S1: Clinical characteristics of the relatives.
Patient Sex Type of CVD
Age CVD
Medication MCF2Lc.2066A>G; p.(Asp689Gly)
Hypertension(years)
Smoking BMI(kg/m2)
I-1 F None N/A None No No Yes 23
II:3 F None N/A None No No No 22
II:1 F PTCA 62 Lipitor 40 mg
Yes No No 22
II:2 M AP 46 Inegy 40 mg Yes No Yes 25
II:4† M AMI 43 Lipitor 40 mg
Yes No No 23
II:5 M CABG 40 Lipitor 20 mg
Yes No Yes 26
II:6 F AMI/PTCA
39 Zocor 20 mg Yes No No 24
PTCA = Percutaneous Transluminal Coronary Angioplasty; AP = Angina Pectoris; AMI = Acute Myocardial Infarction; CABG = coronary artery bypass surgery; BMI = body mass index (kg/cm2). † = index case. Subjects were considered smokers if they were current smokers or when they quitted smoking within the last 5 years. Hypertension was defined as a systolic blood pressure > 140 mmHg and/or diastolic blood pressure > 80 mmHg or the use of anti-hypertensive lowering drugs. Diabetes mellitus was defined as fasting plasma glucose ≥ 7.0 mmol/l or 2h plasma glucose ≥ 11.1 mmol/l as defined by the World Health Organization (WHO).
Tabel S2: Linkage intervals with LODscore > -2 (NCBI137/hg19).Chr# Start SNP END SNP IntervalChr7 64406438 rs10949950 65357776 rs35850374 951338Chr7 66689728 rs11761805 67026320 rs4576304 336592Chr7 117378355 rs739798 132945754 rs10215367 15567399Chr9 136927656 rs1076148 141213431 End 4285775Chr11 123289850 rs2156443 131697483 rs11603321 8407633Chr13 112349868 rs9560166 113839747 rs515863 1489879Chr14 0 start 20709688 rs7156806 20709688Chr17 64816464 rs4791032 65343997 rs9904424 527533Chr18 429354 rs17564131 4780620 rs6506247 4351266Chr20 2340973 rs6082889 9378671 rs1997696 7037698Chr21 43448796 rs220229 44715784 rs762391 1266988Chr22 0 start 17254399 rs2190742 17254399
SUM (bp)= 82186188
Table S3: Clinical characteristics of participants in the PAS cohort (n = 935).Male/Female Age (years) BMI LDL-c HDL-c TG
708/227 43 ± 5 26.9 ± 1.2 3.11 ± 1.29 1.14 ± 0.32 2.06 ± 3.41Data are expressed as number (N) and presented as mean ± standard deviation. BMI = body mass index in kg/m2; LDLc = low-density lipoprotein cholesterol; HDL-c = high-density lipoprotein cholesterol; TG = plasma triglycerides. All lipid data are expressed as mmol/l.
Table S4: Genotyping in replication cohort.Cohort name n CAMSAP1 ZC3HC1 MCF2L
PAS 935 n/a* 6 1†
Sanquin 1440 13 3 0
CBR 8000 n/a* 5 0PAS = Premature AtheroSclerosis; Sanquin = Sanquin Blood Bank; CBR = Cambridge Bioresource and n/a = not applicable. * = Genotyping was not performed due to a high frequency in the Sanquin cohort. † = Pedigree Index case, other pedigree members were not included in the database.
Supplementary references[1] van der Loos CM. Multiple immunoenzyme staining: methods and visualizations for the observation with spectral imaging. J Histochem Cytochem 2008;56;313-28.