Stefan Holdenrieder

Reciprocal coupling of coagulation and innate immunity via neutrophil serine proteases

Blood neutrophils provide the first line of defense against pathogens but have also been implicated in thrombotic processes. This dual function of neutrophils could reflect an evolutionarily conserved association between blood coagulation and antimicrobial defense, although the molecular determinants and in vivo significance of this association remain unclear. Here we show that major microbicidal effectors of neutrophils, the serine proteases neutrophil elastase and cathepsin G, together with externalized nucleosomes, promote coagulation and intravascular thrombus growth in vivo. The serine proteases and extracellular nucleosomes enhance tissue factor– and factor XII–dependent coagulation in a process involving local proteolysis of the coagulation suppressor tissue factor pathway inhibitor. During systemic infection, activation of coagulation fosters compartmentalization of bacteria in liver microvessels and reduces bacterial invasion into tissue. In the absence of a pathogen challenge, neutrophil-derived serine proteases and nucleosomes can contribute to large-vessel thrombosis, the main trigger of myocardial infarction and stroke. The ability of coagulation to suppress pathogen dissemination indicates that microvessel thrombosis represents a physiological tool of host defense.

Soluble MICA in malignant diseases.

The immunoreceptor NKG2D activates natural killer cells and costimulates CD8 T cells. The MHC class I–related MICA molecules are ligands of NKG2D and are expressed on malignant, but not on normal, cells. As NKG2D plays an important role in the immunosurveillance of tumors, studies suggest that release of MICA from cancer cells constitutes an immune escape mechanism that systemically impairs antitumor immunity. Here, we investigated the potential of soluble MICA (sMICA) as a marker in cancer. Analysis of sMICA in sera of 512 individuals revealed significantly (p < 0.0001) higher levels in patients with various malignancies (n = 296, median 161 pg/ml) than in healthy individuals (n = 62, median <30 pg/ml). Patients with benign diseases (n = 154, median 84 pg/ml) exhibited intermediate sMICA levels. In cancer patients, elevated sMICA levels correlated significantly with cancer stage and metastasis (p = 0.015 and p = 0.007, respectively). While release of MICA is thought to impair tumor immunity, determination of sMICA levels may provide useful additional information in the diagnosis and staging of cancer.

Nucleosomes in serum of patients with benign and malignant diseases.

High quantities of mono‐ and oligonucleosomes circulate in the blood of patients with malignant tumors. For their direct quantification in serum, we modified the Cell Death Detectionplus‐ELISA for its application in liquid materials. We examined sera samples from 590 persons, including 418 patients with malignant tumors, 109 patients with benign diseases and 63 healthy persons. We also observed the kinetics of the concentration of nucleosomes in serum samples from 20 patients undergoing chemotherapy and from 16 patients undergoing radiotherapy. Sera of patients with malignant tumors contained considerably higher concentrations of nucleosomes (mean = 350 arbitrary units [AU], median = 190 AU) compared with those of healthy persons (mean = 36 AU, median = 24 AU; p = 0.0001) and patients with benign diseases (mean = 264 AU, median = 146 AU; p = 0.072). Concerning the follow‐up investigations, the concentration of nucleosomes in serum increased 24–72 hr after the first application of chemotherapy and 6–24 hr after the start of radiotherapy. A subsequent decrease was often correlated with regression of the tumor. In patients undergoing chemotherapy, an increase in the baseline values of circulating nucleosomes >50%, which were determined before each new therapeutic cycle, was correlated with progression of disease; all patients with disease regression showed a decrease >50% of the baseline values. In patients undergoing radiotherapy, an early decrease of the nucleosomal concentration (≤1 day after the initial peak during therapy) to low minimum levels (≤100 AU) correlated with good clinical outcome; a late decrease (>1 day) to higher minimum levels (>100 AU) was associated with a worse clinical outcome. Thus, the concentration of nucleosomes in serum might be a useful tool for monitoring the biochemical response during antitumor therapy, especially for the early estimation of therapeutic efficacy.

Soluble NKG2D ligands: prevalence, release, and functional impact.

Natural Killer (NK) cells are capable to recognize and eliminate malignant cells. Anti-tumor responses of NK cells are promoted by the tumor-associated expression of cell stress-inducible ligands of the activating NK receptor NKG2D. Current evidence suggests that established tumors subvert NKG2D-mediated tumor immunosurveillance by releasing NKG2D ligands (NKG2DL). Release of NKG2DL has been observed in a broad variety of human tumor entities and is thought to interfere with NKG2D-mediated tumor immunity in several ways. Further, levels of soluble NKG2DL (sNKG2DL) were also found to be elevated under various non-malignant conditions, although the functional implications remain largely unclear. Here we review and discuss the available data on the prevalence, release, functional impact, and potential clinical value of sNKG2DL.

Soluble MICB in malignant diseases: analysis of diagnostic significance and correlation with soluble MICA

Expression of ligands of the immunoreceptor NKG2D such as MICA and MICB has been proposed to play an important role in the immunosurveillance of tumors. Proteolytic shedding of NKG2D ligands from cancer cells therefore constitutes an immune escape mechanism impairing anti-tumor reactivity by NKG2D-bearing cytotoxic lymphocytes. Serum levels of sMICA have been shown to be of diagnostic significance in malignant diseases of various origins. Here, we investigated the potential of soluble MICB, the sister molecule of MICA, as a marker in cancer and its correlation with soluble MICA. Analysis of MICB in sera of 512 individuals revealed slightly higher MICB levels in patients with various malignancies (Nxa0=xa0296; 95th percentile 216xa0pg/ml; Pxa0=xa00.069) than in healthy individuals (Nxa0=xa062; 95th percentile 51xa0pg/ml). Patients with benign diseases (Nxa0=xa0154; 95th percentile 198xa0pg/ml) exhibited intermediate MICB levels. In cancer patients, elevated MICB levels correlated significantly with cancer stage and metastasis (Pxa0=xa00.007 and 0.007, respectively). Between MICB and MICA levels, only a weak correlation was found (rxa0=xa00.24). Combination of both markers resulted only in a slightly higher diagnostic power in the high specificity range. The reduction of MICA and MICB surface expression on cells by shedding and the effects of sMICA and sMICB in serum on host lymphocyte NKG2D expression might play a role in late stages of tumor progression by overcoming the confining effect of NK cells and CD8 T cells. While MICB levels are not suited for the diagnosis of cancer in early stages, they may provide additional information for the staging of cancer disease.

Circulating Nucleosomes in Serum

Abstract: In the nucleus of eukaryotic cells, DNA is associated with several protein components and forms complexes known as nucleosomes. During cell death, particularly during apoptosis, endonucleases are activated that cleave the chromatin into multiple oligo‐ and mononucleosomes. Subsequently, these nucleosomes are packed into apoptotic bodies and are engulfed by macrophages or neighboring cells. In cases of high rates of cellular turnover and cell death, they also are released into the circulation and can be detected in serum or plasma. As enhanced cell death occurs under various pathologic conditions, elevated amounts of circulating nucleosomes are not specific for any benign or malignant disorder. However, the course of change in the nucleosomal levels in circulation of patients with malignant tumors during chemotherapy or radiotherapy is associated with the clinical outcome and can be useful for the therapeutic monitoring and the prediction of the therapeutic efficacy.

Methods for isolation of cell-free plasma DNA strongly affect DNA yield.

Extracellular nucleic acids are present in plasma, serum, and other body fluids and their analysis has gained increasing attention during recent years. Because of the small quantity and highly fragmented nature of cell-free DNA in plasma and serum, a fast, efficient, and reliable isolation method is still a problem and so far there is no agreement on a standardized method. We used spin columns from commercial suppliers (QIAamp DNA Blood Midi Kit from Qiagen; NucleoSpin Kit from Macherey-Nagel; MagNA Pure isolation system from Roche Diagnostics) to isolate DNA from 44 plasma samples in parallel at laboratories in Berlin and Munich. DNA in all samples was quantified by real-time PCR on a LightCycler 480 using three different targets (GAPDH, ß-globin, ERV). The quantities of cell-free DNA for the different isolation methods and genes varied between medians of 1.6 ng/mL and 28.1 ng/mL. This considerable variation of absolute DNA values was mainly caused by the use of different isolation methods (p<0.0001). Comparable results were achieved by the use of the genes GAPDH and ERV while higher values were obtained by use of ß-globin. The laboratory site had only minor influence on DNA yield when manual extraction methods were used.

Therapy Control in Oncology by Circulating Nucleosomes

Abstract: The courses of circulating nucleosomes in the serum of patients with various solid tumors correlate with the clinical outcome after chemo‐ and radiotherapy. Already during the initial phase of treatment they showed considerable alterations consisting of a rapid increase followed by a decrease during the first therapeutic week. Among patients with advanced lung cancer undergoing chemotherapy, those patients who responded to therapy exhibited less pronounced increases and more complete decreases compared to those patients with insufficient response. In addition, response to therapy was correlated with stronger decreases of the precyclic baseline values from cycle 1 to 2 and from cycle 1 to 3. Thus, circulating nucleosomes are a valuable tool for the early prediction of therapeutic efficacy and can help to modulate therapy strategies early and on an individual basis.

Prognostic relevance of CA 19-9, CEA, CRP, and LDH kinetics in patients treated with palliative second-line therapy for advanced pancreatic cancer

The objective of this study was to define prognostic serum biomarkers that could serve as surrogate survival endpoints during second-line treatment for advanced pancreatic cancer. This retrospective single-center study included patients treated with second-line therapy for advanced exocrine pancreatic cancer. A pretreatment value and at least one serial measurement during the first two cycles of second-line chemotherapy for CA 19-9, CEA, CRP, and LDH had to be available in order to evaluate the prognostic role of kinetics on overall survival. A cutoff of a >20% increase from baseline during treatment was defined in order to form groups with suspected different outcomes. The effect of serial biomarker changes on survival was modeled by Cox proportional hazards regression in univariate and multivariate analyses. Overall, 70 patients treated with second-line therapy for advanced disease were included; 94% had distant metastases at treatment initiation. Median time to progression was 2.7xa0months and median survival 5.4xa0months. Univariate analysis found that an increase of >20% during treatment was significantly associated with a worse overall survival for CA 19-9 (HR 2.00, pu2009=u20090.018), CEA (HR 2.38, pu2009=u20090.004), and CRP (HR 3.06, pu2009<u20090.001). These associations remained significant within multivariate analysis for CEA (HR 2.86, pu2009=u20090.001) and CRP (HR 3.20, pu2009=u20090.001). Serum biomarker kinetics might serve as useful prognostic tools during second-line chemotherapy in advanced pancreatic cancer.

Alternative antibody for the detection of CA15-3 antigen: a European multicenter study for the evaluation of the analytical and clinical performance of the Access BR Monitor assay on the UniCel Dxl 800 Immunoassay System.

Abstract Background: Cancer antigen CA125 is known as a valuable marker for the management of ovarian cancer. Methods: The analytical and clinical performance of the Access OV Monitor Immunoassay System (Beckman Coulter) was evaluated at five different European sites and compared with a reference system, defined as CA125 on the Elecsys System (Roche Diagnostics). Results: Total imprecision (%CV) of the OV Monitor ranged between 3.1% and 8.8%, and inter-laboratory reproducibility between 4.7% and 5.0%. Linearity upon dilution showed a mean recovery of 100% (SD+8.1%). Endogenous interferents had no influence on OV Monitor levels (mean recoveries: hemoglobin 107%, bilirubin 103%, triglycerides 103%). There was no high-dose hook effect up to 27,193 kU/L. Clinical performance investigated in sera from 1811 individuals showed a good correlation between the Access OV Monitor and Elecsys CA125 (R=0.982, slope=0.921, intercept=+1.951). OV Monitor serum levels were low in healthy individuals (n=267, median=9.7 kU/L, 95th percentile=30.8 kU/L), higher in individuals with various benign diseases (n=549, medians=10.9–16.4 kU/L, 95th percentiles=44.2–355 kU/L) and even higher in individuals suffering from various cancers (n=995, medians=12.4–445 kU/L; 95th percentiles=53.4–4664 kU/L). Optimal diagnostic accuracy for cancer detection against the relevant benign control group by the OV Monitor was found for ovarian cancer [area under the curve (AUC) 0.898]. Results for the reference CA125 assay were comparable (AUC 0.899). Conclusions: The Access OV Monitor provides very good methodological characteristics and demonstrates an excellent analytical and clinical correlation with Elecsys CA125. The best diagnostic accuracy for the OV Monitor was found in ovarian cancer. Our results also suggest a clinical value of the OV Monitor in other cancers. Clin Chem Lab Med 2008;46:588–99.