ST Elevation Myocardial Infarction Clinical Trial
Official title:
Single Nucleotide Polymorphisms in the Deoxyribonuclease 1 Gene Impair Its Activity and Are Increased in a ST-elevation Acute Coronary Syndrome Patient Cohort Compared to Healthy Controls
Neutrophil extracellular traps (NETs) and deoxyribonuclease (DNase) activity determine
outcome in ST elevation acute coronary syndrome (STE-ACS). DNase single nucleotide
polymorphisms (SNPs) were increased in a japanese cohort.
In the present study, the investigators seek to measure DNase SNPs frequency in a caucasian
STE-ACS cohort compared to healthy controls (each n=400). The investigators will compute
polymorphisms, DNase activity, NET surrogate markers and clinical variables in regression
models.
Background Acute coronary syndrome (ACS) is among the leading causes of death(1).
Atherosclerosis and coronary thrombotic occlusion are driven by inflammatory
pathomechanisms(2). The investigators have shown neutrophilic activation and neutrophil
extracellular traps (NETs) at the culprit lesion site of ST-elevation ACS (STE-ACS)
patients(3). NETs are well described components of thrombi, building a condensation nucleus
for platelets, erythrocytes and fibrinogen. NET-containing thrombi can be effectively lysed
by deoxyribonuclease (DNase) in vitro(4). By adding DNase, the investigators showed potent
acceleration of tissue plasminogen activator-mediated lysis of coronary thrombi ex vivo.
Surrogate markers of NETs are strong predictors of acute coronary events(5). In STE-ACS
patients, NETs directly correlated with cardiac magnet resonance-measured infarct size.
Moreover, increased coronary DNase activity correlated with smaller infarct size(3).
Two major endogenous plasmatic DNases have been described, namely DNase 1 and DNase
gamma(6). Several polymorphisms of the gene encoding for DNase 1 affecting its activity are
known(7,8). The single nucleotide polymorphism (SNP) Q222R in the DNase 1 gene, leading to
impaired extracellular DNase activity, was correlated with increased incidence of myocardial
infarction in Japanese patients(9). SNPs associated with reduced DNAse activity are also
known for DNase gamma, but no associations with ACS have been investigated. Present data
implicate a critical balance between formation and degradation of NETs and outcome of ACS.
Rationale The investigators hypothesize that coronary endoluminal NET formation is a major
component of acute macro- and microvessel atherothrombosis. Extracellular DNase degrades
NETs, thus down-regulating overwhelming NET formation. Impaired DNase activity increases the
risk for ACS. Thus, the investigators seek to test the presence of polymorphisms in the
DNase gene impairing DNase activity in a STE-ACS population.
Aims
1. To compare single nucleotide polymorphisms in the DNase 1 and gamma gene in STE-ACS
patients, coronary artery disease patients and healthy controls using polymerase chain
reaction
2. To test DNase activity in plasma of these patients and healthy controls and to
correlate that with the respective gene expression type
3. To test NET formation and NET surrogate markers and to correlate those with DNase
activity and DNase SNPs
4. To correlate these data with surrogate markers of infarct size, reperfusion, long term
outcome parameters and risk factors for coronary artery disease.
Methods
Patients
The investigators will contact patients (n=400) who have been hospitalized in the General
Hospital of Vienna in the past 10 years for ST-elevation acute coronary syndrome undergoing
primary percutaneous coronary intervention (pPCI) with TIMI 0-1. These patients will be
invited for a consultation. The investigators will perform the following investigations with
patients willing to join the study:
- Medical history
- Detailed clinical examination
- Electrocardiography
- Echocardiography
- Routine blood draw
- Blood draw for research experiments Any patient with relevant clinical findings will be
led to further diagnostic evaluation. MACE occurring between the acute coronary event
until presence will be surveyed at the consultation. All patients will be contacted
once a year to assess MACE.
Healthy donors Blood samples from healthy donors (n=400) will be obtained by a peripheral
blood draw from the cubital vein. The probands will be recruited by bulletins in the General
Hospital of Vienna.
Real time polymerase chain reaction Cells will be lysed and DNAwill be isolated using a
DNAeasy kit (Applied Biosystems). DNA or will be analyzed for DNase SNPs using primer/probe
assays (Applied Biosystems). The ABI PRISM 7000 Sequence Detection System and software
(Applied Biosystems) will be used.
NET surrogate marker determination
Nucleosomes For the detection of DNA-histone complexes (nucleosomes), an ELISA-Cell death
detection kit (Roche Diagnostics GmbH, Germany) will be employed. Optical density (OD)
values will be normalized to the internal positive control and expressed as arbitrary
nucleosome units/ml (NU/ml). The intra-assay positive control equals 1000 NU/ml.
MPO-DNA complexes Myeloperoxidase (MPO)-associated DNA fragments will be identified using a
capture ELISA. 96-well microplates will be coated with an anti-MPO monoclonal capturing
antibody (ABD Serotec, UK). As detection antibody, the investigators will use a peroxidase
labeled anti-DNA monoclonal antibody (Cell Death Detection ELISA Plus Kit, Roche Diagnostics
GmbH, Germany). All measurements will be performed in duplicates and values will be
specified as mean ODs.
Double stranded DNA For the detection of double stranded DNA (dsDNA) in patient plasma, the
investigators will employ a Quant-iT PicoGreen dsDNA Assay (Invitrogen, USA) on 96-well
microplates. PicoGreen is a fluorescent nucleic acid stain for the quantification of dsDNA
in solution. Fluorescence will be measured by a Varioskan Flash microplate reader (Thermo
Scientific, USA) and normalized to the provided standard (1000 ng/ml).
DNase activity assay Endogenous deoxyribonuclease (DNase) activity will be measured
employing a DNase Activity Assay (Orgentec Diagnostika GmbH, Mainz, Germany). A DNA-coated
microplate will be incubated with plasma samples for 60 minutes. Coated DNA will be degraded
in proportion to the DNase activity of the respective sample. Optical density of residual
DNA will be inversely proportional to DNase activity. All assays will be performed following
the manufacturer´s instructions. All measurements will be performed in duplicate. Plates
will be read on a VersaMax microplate reader (Molecular Devices, Sunnyvale, CA, USA).
Polymorphonuclear (PMN) cell culture and netosis assays PMNs (i.e. mainly neutrophils) from
healthy donors will be isolated with Polymorphprep (Axis-Shield, Dundee, Scotland).
Erythrocytes will be lysed using a one-step lysis buffer (NH4Cl 154mmol/L, KHCO3 10mmol/L,
EDTA 0.1mmol/L). The cell suspension will then be washed twice with HBSS supplemented with
10% of fetal calf serum (FBS). Isolated PMNs will be counted and resuspended at 2x10^6
cells/ml in HBSS supplemented with 10% of FBS. Cell viability will be determined by trypan
blue exclusion.
Immunofluorescence staining of NETs Fixed NETs will be stained using a mouse anti-DNA
Histone H1 antibody (Millipore). After incubation, a secondary donkey anti-mouse IgG
antibody coupled to Alexa Fluor 555 (Invitrogen, Life Technologies, Grand Island, NY; USA)
will be added. For detection of nuclear DNA, 4',6-diamidino-2-phenylindole (DAPI,
Vectashield mounting medium with DAPI; Vector Laboratories, Burlingame, CA, USA) will be
used. For staining of neutrophil elastase (NE) and myeloperoxidase (MPO), rabbit anti-human
NE and MPO antibodies (Abcam) are used with a secondary Alexa Fluor 488 coupled donkey
anti-rabbit IgG antibody (Invitrogen). Images will be obtained with an Axio Imager 2
fluorescence microscope using AxioVision (Carl Zeiss Microscopy GmbH, Göttingen, Germany).
Statistics Normally distributed data will be expressed as mean ± standard deviation (SD),
otherwise median and interquartile range (IQR) will be presented. Paired Students t-test
will be applied to compare normally distributed variables, otherwise Wilcoxon signed rank
test will be used. Distribution of data will be tested using the Kolmogorov-Smirnov test,
the Shapiro-Wilk test and histograms (data not shown). For comparison of multiple groups,
one-way analysis of variance with post-hoc Scheffé-procedure will be performed. Spearman's
rank correlation (rs) will be applied to calculate correlations data. Multivariate
regression models will be calculated and bootstrap correction techniques will be applied.
The area under the curve (AUC) of CK-MB values will be expressed in arbitrary units and be
calculated employing the trapezoidal formula (10), if at least 5 consecutive values over a
period of 3 days post admission were available. Bonferroni-Holm correction will be used for
multiple testing. A p-value below 0.05 will be considered significant. Statistical analyses
were performed using IBM SPSS Statistics 20.0 for Windows (New York, NY, USA). Figures will
be generated using GraphPad Prism 5.
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