Daniela Stallmann

Acute fluoxetine treatment induces slow rolling of leukocytes on endothelium in mice.

Objective Activated platelets release serotonin at sites of inflammation where it acts as inflammatory mediator and enhances recruitment of neutrophils. Chronic treatment with selective serotonin reuptake inhibitors (SSRI) depletes the serotonin storage pool in platelets, leading to reduced leukocyte recruitment in murine experiments. Here, we examined the direct and acute effects of SSRI on leukocyte recruitment in murine peritonitis. Methods C57Bl/6 and Tph1−/− (Tryptophan hydroxylase1) mice underwent acute treatment with the SSRI fluoxetine or vehicle. Serotonin concentrations were measured by ELISA. Leukocyte rolling and adhesion on endothelium was analyzed by intravital microscopy in mesentery venules with and without lipopolysaccharide challenge. Leukocyte extravasation in sterile peritonitis was measured by flow cytometry of abdominal lavage fluid. Results Plasma serotonin levels were elevated 2 hours after fluoxetine treatment (0.70±0.1 µg/ml versus 0.27±0.1, p = 0.03, n = 14), while serum serotonin did not change. Without further stimulation, acute fluoxetine treatment increased the number of rolling leukocytes (63±8 versus 165±17/0.04 mm2min−1) and decreased their velocity (61±6 versus 28±1 µm/s, both p<0.0001, n = 10). In Tph1−/− mice leukocyte rolling was not significantly influenced by acute fluoxetine treatment. Stimulation with lipopolysaccharide decreased rolling velocity and induced leukocyte adhesion, which was enhanced after fluoxetine pretreatment (27±3 versus 36±2/0.04 mm2, p = 0.008, n = 10). Leukocyte extravasation in sterile peritonitis, however, was not affected by acute fluoxetine treatment. Conclusions Acute fluoxetine treatment increased plasma serotonin concentrations and promoted leukocyte-endothelial interactions in-vivo, suggesting that serotonin is a promoter of acute inflammation. E-selectin was upregulated on endothelial cells in the presence of serotonin, possibly explaining the observed increase in leukocyte-endothelial interactions. However transmigration of neutrophils in sterile peritonitis was not affected by higher serotonin concentrations, indicating that the effect of fluoxetine was restricted to early steps in the leukocyte recruitment. Whether SSRI use in humans alters leukocyte recruitment remains to be investigated.

Platelet-neutrophil complex formation—a detailed in vitro analysis of murine and human blood samples

Platelets form complexes with neutrophils during inflammatory processes. These aggregates migrate into affected tissues and also circulate within the organism. Several studies have evaluated platelet‐neutrophil complexes as a marker of cardiovascular diseases in human and mouse. Although multiple publications have reported platelet‐neutrophil complex counts, we noticed that different methods were used to analyze platelet‐neutrophil complex formation, resulting in significant differences, even in baseline values. We established a protocol for platelet‐neutrophil complex measurement with flow cytometry in murine and human whole blood samples. In vitro platelet‐neutrophil complex formation was stimulated with ADP or PMA. We tested the effect of different sample preparation steps and cytometer settings on platelet‐neutrophil complex detection and noticed false‐positive counts with increasing acquisition speed. Platelet‐neutrophil complex formation depends on platelet P‐selectin expression, and antibody blocking of P‐selectin consequently prevented ADP‐induced platelet‐neutrophil complex formation. These findings may help generating more comparable data among different research groups that examine platelet‐neutrophil complexes as a marker for cardiovascular disease and novel therapeutic interventions.

Droplet digital PCR as a novel detection method for quantifying microRNAs in acute myocardial infarction

BACKGROUND micro-RNAs have shown promise as potential biomarkers for acute myocardial infarction and ischemia-reperfusion injury (I/R). Most recently droplet digital polymerase chain reaction (ddPCR) has been introduced as a more reliable and reproducible method for detecting micro-RNAs. AIMS We aimed to demonstrate the improved technical performance and diagnostic potential of ddPCR by measuring micro-RNAs in ST-elevation myocardial infarction (STEMI). METHODS A dilution series was performed in duplicate on synthetic Caenorrhabditis elegans-miR-39, comparing quantitative real-time PCR (qRT-PCR) and ddPCR. We used ddPCR and qRT-PCR to quantify the serum levels of miR-21, miR-208a and miR-499 between STEMI patients (n=24) and stable coronary artery disease (CAD) patients (n=20). In STEMI, I/R injury was assessed via measurement of ST-segment resolution. RESULTS In the dilution series, ddPCR demonstrated superior coefficient of variation (12.1%vs.32.9%) and limit of detection (0.9325 vs.2.425copies/μl). In the patient cohort, ddPCR demonstrated greater differences in miR-21 levels (2190.5 vs. 484.7copies/μl; p=0.0004 for ddPCR and 136.4 vs. 122.8copies/μl; p=0.2273 for qRT-PCR) and in miR-208a (0 vs. 24.1copies/μl, p=0.0013 for ddPCR and 0 vs. 0copies/μl, p=0.0032 for qRT-PCR), with similar differences observed in miR-499 levels (9.4 vs. 81.5copies/μl, p<0.0001 for ddPCR and 0 vs. 19.41copies/μl, p<0.0001 for qRT-PCR). ddPCR also more accurately defined STEMI for all miRNAs (area under the curve (AUC) of 0.8021/0.7740/0.9063 for miR-21/208a/499 with ddPCR vs. AUC of 0.6083/0.6917/0.8417 with qRT-PCR). However, there was no association between miR-21/208a/499 levels and ischemia-reperfusion injury. CONCLUSION ddPCR demonstrates superiority in both technical performance and diagnostic potential compared to qRT-PCR. Ultimately, this supports its use as a diagnostic method for quantifying micro-RNAs, particularly in large multi-center trials.

Circulating HtrA2 as a novel biomarker for mitochondrial induced cardiomyocyte apoptosis and ischemia-reperfusion injury in ST-segment elevation myocardial infarction

BACKGROUND Ischemia-reperfusion (I/R) injury in ST-segment elevation myocardial infarction (STEMI) significantly contributes to overall myocardial damage. As a consequence of I/R injury in the heart, the high-temperature requirement protein A2 (HtrA2) is released from the mitochondrial intermembrane space of cardiomyocytes to the cytoplasm, whereupon it induces apoptosis. METHODS Serum was obtained from STEMI (n=37), non-ST-segment elevation myocardial infarction (NSTEMI) (n=20), stable coronary artery disease (CAD) (n=17) and patients with CAD excluded (n=9). In STEMI, I/R injury was assessed via measurement of ST-segment resolution. RESULTS HtrA2 was significantly increased in STEMI compared to NSTEMI, stable CAD and patients with CAD excluded (981.3 (IQR: 543.5-1526.2)pg/mL vs. 494.5 (IQR: 413.8-607)pg/mL vs. 291 (IQR: 239-458.5)pg/mL vs. 692.2 (IQR: 276.6-964.7)pg/mL; p≤0.0001). STEMI patients with HtrA2 level of at least the median or above had a higher peak creatine kinase (CK) (p=0.0002) and cardiac troponin T levels (cTnT) (p=0.0019). Significantly more STEMI patients with HtrA2 levels of at least the median or above were identified as I/R injury (87% vs. 42%; p<0.0001). Serum HtrA2 demonstrated a superior area under a curve in a receiver operating characteristic analysis for predicting I/R injury compared to CK, creatine kinase myocardial-band (CK-MB) and cTnT levels (AUC=0.7105 vs. AUC=0.5632 vs. AUC=0.5660 vs. AUC=0.5407 respectively). CONCLUSION HtrA2 shows promise as a novel potential biomarker for mitochondrial-induced cardiomyocyte apoptosis and may help to identify I/R injury after STEMI.

Chip-based digital PCR as a novel detection method for quantifying microRNAs in acute myocardial infarction patients

AbstractmiRNAs have shown promise as potential biomarkers for acute myocardial infarction (AMI). However, the current used quantitative real-time PCR (qRT-PCR) allows solely for relative expression of nucleic acids and it is susceptible to day-to-day variability, which has limited the validity of using the miRNAs as biomarkers. In this study we explored the technical qualities and diagnostic potential of a new technique, chip-based digital PCR, in quantifying the miRNAs in patients with AMI and ischaemia-reperfusion injury (I/R). In a dilution series of synthetic C.elegans-miR-39, chip-based digital PCR displayed a lower coefficient of variation (8.9% vs 46.3%) and a lower limit of detection (0.2 copies/μL vs 1.1 copies/μL) compared with qRT-PCR. In the serum collected from 24 patients with ST-elevation myocardial infarction (STEMI) and 20 patients with stable coronary artery disease (CAD) patients after percutaneous coronary intervention (PCI), we used qRT-PCR and multiplexed chip-based digital PCR to quantify the serum levels of miRNA-21 and miRNA-499 as they have been validated in AMI in prior studies. In STEMI, I/R injury was assessed via measurement of ST-segment resolution (ST-R). Chip-based digital PCR revealed a statistical significance in the difference of miR-21 levels between stable CAD and STEMI groups (118.8 copies/μL vs 59 copies/μL; P=0.0300), whereas qRT-PCR was unable to reach significance (136.4 copies/μL vs 122.8 copies/μL; P=0.2273). For miR-499 levels, both chip-based digital PCR and qRT-PCR revealed statistically significant differences between stable CAD and STEMI groups (2 copies/μL vs 8.5 copies/μL, P=0.0011; 0 copies/μL vs 19.4 copies/μL; P<0.0001). There was no association between miR-21/499 levels and ST-R post-PCI. Our results show that the chip-based digital PCR exhibits superior technical qualities and promises to be a superior method for quantifying miRNA levels in the circulation, which may become a more accurate and reproducible method for directly quantifying miRNAs, particularly for use in large multi-centre clinical trials.

The mitochondria-targeting peptide elamipretide diminishes circulating HtrA2 in ST-segment elevation myocardial infarction:

Background: The extent of myocardial damage in patients with ST-segment elevation myocardial infarction (STEMI) depends on both the time to reperfusion as well as injury induced by ischaemia–reperfusion resulting in a cascade of cellular and humoral reactions. As a consequence of ischaemia–reperfusion in the heart, the high-temperature requirement serine peptidase 2 (HtrA2) is translocated from the mitochondria to the cytosol, whereupon it induces protease activity-dependent apoptosis mediated via caspases. Myocardial damage induced by reperfusion cannot be monitored due to a current lack in specific biomarkers. We examined the serum level of HtrA2 as a potentially novel biomarker for mitochondrial-induced cardiomyocyte apoptosis. Methods: After informed consent, peripheral blood was obtained from patients (n=19) with first-time acute anterior STEMI after percutaneous coronary intervention. Within this group, 10 of the patients received the mitochondria-targeting peptide elamipretide (phase 2a clinical study EMBRACE (NCT01572909)). Blood was also obtained from a control group of healthy donors (n=16). The serum level of HtrA2 was measured by an enzyme-linked immunosorbent assay (ELISA). In a murine model of myocardial ischaemia–reperfusion injury, HtrA2 was determined in plasma by ELISA after left anterior descending artery occlusion. Results: HtrA2 median was significantly increased in patients with STEMI compared to healthy controls 392.4 (240.7–502.8) pg/mL vs. 1805.5 (981.3–2220.1) pg/mL (P⩽0.05). Elamipretide significantly reduced the HtrA2 median serum level after myocardial infarction 1805.5 (981.3–2220.1) pg/mL vs. 496.5 (379.4–703.8) pg/mL (P⩽0.05). Left anterior descending artery occlusion in mice significantly increased HtrA2 mean in plasma (117.4 fg/ml±SEM 28.1 vs. 525.2 fg/ml±SEM 96; P⩽0.05). Conclusion: Compared to healthy controls, we found significantly increased serum levels of HtrA2 in patients with STEMI. The result was validated in a murine model of myocardial ischaemia–reperfusion injury. In humans the increased serum level was significantly reduced by the mitochondria-targeting peptide elamipretide. In conclusion, HtrA2 is detectable in serum of patients with STEMI and might present a novel biomarker for mitochondrial-induced cardiomyocyte apoptosis. Consequently, HtrA2 may also show promise as a biomarker for the identification of ischaemia–reperfusion injury. However, this must be validated in a lager clinical trial.

Digital PCR for Quantifying Circulating MicroRNAs in Acute Myocardial Infarction and Cardiovascular Disease

Circulating serum microRNAs (miRNAs) have shown promise as biomarkers for the cardiovascular disease and acute myocardial infarction (AMI), being released from the cardiovascular cells into the circulation. Circulating miRNAs are highly stable and can be quantified. The quantitative expression of specific miRNAs can be linked to the pathology, and some miRNAs show high tissue and disease specificity. Finding novel biomarkers for cardiovascular diseases is of importance for medical research. Quite recently, digital polymerase chain reaction (dPCR) has been invented. dPCR, combined with fluorescent hydrolysis probes, enables specific direct absolute quantification. dPCR exhibits superior technical qualities, including a low variability, high linearity, and high sensitivity compared to the quantitative polymerase chain reaction (qPCR). Thus, dPCR is a more accurate and reproducible method for directly quantifying miRNAs, particularly for the use in large multi-center cardiovascular clinical trials. In this publication, we describe how to effectively perform digital PCR in order to assess the absolute copy number in serum samples.

Droplet digital PCR of serum miR-499, miR-21 and miR-208a for the detection of functionally relevant coronary artery disease

BACKGROUND microRNAs (miRNAs) have shown promise as potential new biomarkers for myocardial injury and myocardial ischemia. New digital polymerase chain reaction (PCR) techniques allow for highly precise and reliable absolute direct quantification. METHODS In this pilot study we used droplet digital PCR (ddPCR) to assess if miRNAs might be released into circulation in patients with functionally relevant coronary artery disease (CAD). Blood samples for measurement of high-sensitivity cardiac troponin I (hs-cTnI) and miRNAs were obtained before, immediately after peak stress, and 2 h after stress testing in a blinded manner in consecutive patients referred for rest/stress myocardial perfusion single-photon emission tomography/computer tomography (MPI-SPECT/CT). ddPCR was used to directly quantify the serum concentrations of miR-21, miR-208a, and miR-499 as potential markers of myocardial injury/ischemia. Functionally relevant CAD was determined by expert interpretation of MPI-SPECT/CT, coronary angiography and fractional flow reserve, if performed. RESULTS Overall, 200 patients were included and functionally relevant CAD was detected in 85 of them (42%). Neither miR-21, miR-208a, nor miR-499 concentrations differed at rest, stress, or 2-h after stress when comparing patients with versus without functionally relevant CAD, while hs-cTnI concentrations were significantly higher in patients with functionally relevant CAD (P < 0.001). Exercise-induced changes in miRNA or hs-cTnI concentrations did not have diagnostic utility and were similar in patients with versus without functionally relevant CAD. CONCLUSION miR-208a, miR-21 and miR-499 concentrations at rest, after exercise and exercise-induced changes do not provide additional clinical value regarding the detection of functionally relevant CAD.

Expression of the oxygen-sensitive transcription factor subunit HIF-1α in patients suffering from secondary Raynaud syndrome

Anti-ischemic therapy remains a challenge due to the complexity of hypoxia response pathways. Hypoxia-inducible factor (HIF)-1 is a heterodimer transcription factor consisting of 2 subunits, HIF-1α and HIF-1β. Hypoxia-dependent activation of HIF-1α regulates cellular O2 homeostasis. Raynaud syndrome (RS), as a comorbidity of the autoimmune disease systemic sclerosis (SS), is characterized by vasospasms that limit blood flow to the limbs, resulting in hypoxia. A single-center randomized study was conducted to compare prostaglandin E1 (PgE1) therapy with a treatment combining PgE1 and an endothelin-1 blocker, bosentan. A total of 30 patients suffering from SS with RS were enrolled. We examined the regulation of HIF-1α, its target heme oxygenase-1 (HMOX-1), and the serum levels of the HIF-1α protein in a subset of patients as well as in ten healthy individuals. The expression of HIF-1α and HMOX-1 in monocytes was measured using absolute plasmid-based quantitative real-time PCR, whereas serum HIF-1α levels were measured with ELISA. Samples were taken at the time of randomization and after 24 weeks. We found that HIF-1α and HMOX-1 mRNA expression in monocytes and serum HIF-1α protein levels were significantly higher in the SS/RS patients compared to the healthy control group. Single-drug therapy significantly increased HIF-1α and HMOX-1 mRNA expression in monocytes and serum HIF-1α protein levels in the SS/RS patients compared to those at the time of randomization, whereas combining PgE1 with an endothelin-1 blocker prevented the further increases in HIF-1α and HMOX-1 expression. We propose HIF-1α and HMOX-1 as novel markers for anti-ischemic therapy in RS.

Circulating HtrA2 after primary percutaneous coronary intervention in ST-segment elevation myocardial infarction: A potential novel biomarker for mitochondrial induced cardiomyocyte apoptosis and ischemia-reperfusion injury

a Department of Cardiology and Angiology I, Heart Center Freiburg University, Faculty of Medicine, University of Freiburg, Germany b Department of Medicine, Monash University, Melbourne, Australia c Faculty of Biology, University of Freiburg, Germany d Baker IDI Heart and Diabetes Institute, Melbourne, Australia e Augustinerinnen Hospital, Academic Teaching Hospital University of Cologne, Cologne, Germany