Funktion und epigenetische Regulation des Phospholipase A2-Rezeptors (PLA2R1) bei Prostatatumorerkrankung und akuter lymphoblastischer Leukämie im Kindesalter

Hintergrund: Der Phospholipase A2 Rezeptor 1 (PLA2R1) ist ein Typ 1 Transmembranrezeptor, welcher der Mannose-Rezeptor-Familie zugeordnet werden kann. Die Bedeutung von PLA2R1 für physiologische und pathologische Vorgänge ist noch weitestgehend unbekannt. Jedoch wird die Regulation wichtiger zellulärer Prozesse, wie Proliferation, Apoptose/ Seneszenz, Adhäsion, Migration/ Invasion und Inflammation im Zusammenhang mit dem Rezeptor diskutiert. Darüber hinaus ist eine Änderung der PLA2R1-Expression bei der Entstehung verschiedenster Krebserkrankung nachweisbar. Hierbei wird der Rezeptor einerseits mit einer pro-onkogenen und pro-migratorischen Wirkung in Verbindung gebracht. Andererseits ist ein tumorsuppressiver Effekt von PLA2R1 und eine Induktion der mitochondrialen Apoptose in Tumorzellen beschrieben. Zudem ist die Expression von PLA2R1 durch epigenetische Mechanismen kontrolliert und eine Promotor-Hypermethylierung ist assoziiert mit einer Repression der Rezeptor-Expression in der Prostatakarzinom (PCa)-Zelllinie LNCaP und der pädiatrischen, akuten lymphoblastischen Leukämie (ALL)-Zelllinie Jurkat. Vorangegangene Arbeiten zeigten eine Hypermethylierung innerhalb eines definierten Bereiches des PLA2R1-Promotors bei adulten Patienten mit akuter myeloischer Leukämie und Myelodysplastischem Syndrom (MDS) sowie eine Korrelation der PLA2R1-Promotormethylierung mit dem Krankheitsstadium und der Klassifizierung nach dem Internationalen Prognostischen Scoring System (IPSS). Fragestellung/ Hypothese: Das Ziel der vorliegenden Arbeit war einerseits die Untersuchung der Funktion von PLA2R1 in den PCa-Zelllinien LNCaP und PC-3. Während in LNCaP die Rezeptor-Expression durch Promotor-Hypermethylierung unterdrückt ist, kann in PC-3-Zellen eine Hochregulation von PLA2R1 im Vergleich zu normalen Prostataepithelzellen nachgewiesen werden. Durch in vitro Transfektionsexperimente sollte der Effekt einer Re-expression von PLA2R1 in LNCaP-Zellen sowie die Auswirkungen einer Reduktion der PLA2R1-Expression in PC-3-Zellen untersucht werden. Der Einfluss der veränderten PLA2R1-Expressionslevel auf wichtige Zellparameter wurde evaluiert. Die in vitro Daten der PCa-Zelllinien wurden mit den in vivo Ergebnissen des Tumorwachstums von transfizierten LNCaP- und PC-3-Zellen in Xenograft-Mausmodellen verglichen. Andererseits sollte basierend auf den Ergebnissen von adulten Patienten mit AML- und MDS-Diagnose und der dabei festgestellten Hypermethylierung des Rezeptor-Promotors der Methylierungsstatus des Rezeptors bei der pädiatrischen ALL untersucht werden. Überdies sollte die Eignung der PLA2R1-Methylierungsanalyse als sensitiver Biomarker für die Therapiekontrolle, Überwachung der minimalen Resterkrankung (MRD) und Risikostratifizierung der pädiatrischen ALL evaluiert werden. Die Funktion des Rezeptors im Kontext der pädiatrischen ALL wurde durch eine transfektionsbasierte Re-expression von PLA2R1 in der Jurkat-ALL-Zelllinie untersucht. Durch in vitro Experimente wurden die Auswirkungen der verschiedenen PLA2R1-Expressionslevel auf Proliferation und Apoptose/ Nekrose in transfizierten Jurkat-Zellen analysiert. Material und Methoden: Durch Transfektion mit einem PLA2R1-Expressionsvektor konnte eine stabile Überexpression des Rezeptors in LNCaP- (LNCaP-PLA2R1) und Jurkat-Zellen (Jurkat-PLA2R1) erreicht und die Ergebnisse mit Kontrollvektor-transfizierten LNCaP- (LNCaP-Ctrl) und Jurkat-Zellen (Jurkat-Ctrl) verglichen werden. Mittels CRISPR/Cas9-Knockdown konnte eine Verminderung der PLA2R1-Expression in PC-3-Zellen (PC-3-KD) im Vergleich zu Kontrollvektor-transfizierten PC-3-Zellen (PC-3-Ctrl) erreicht werden. Genexpressionsanalysen wurden mittels quantitativer PCR nach reverser Transkription (RT-qPCR) durchgeführt und die Proteinsynthese des Rezeptors durch Western Blot Analyse überprüft. In vitro sollten die Auswirkungen der differenziellen PLA2R1-Expression der transfizierten Zellen auf wichtige proliferative und metastatische Zellparameter untersucht werden. Die Zellviabilität/ Proliferation wurde mittels WST-1 Assay für adhärente Zellen und Zellwachstumskurven-Analyse mit Trypanblau-Färbung bei Suspensionszellen analysiert. Zellmotilität und Proliferation wurden bei transfizierten PCa-Zelllinien mithilfe des Wundheilungsassays beurteilt. Apoptose konnte durch Wasserstoffperoxid stimuliert und mittels Caspase-Glo® 3/7 Assay und RealTime-Glo™ Annexin V Apoptosis and Necrosis Assay für transfizierte PCa-Zelllinien sowie durchflusszytometrische Analysen nach Annexin-V-FLUOS/ Hoechst 33258 Färbung für transfizierte Jurkat-Zellen untersucht werden. Die klonogene Überlebensrate und das Koloniewachstum der transfizierten PCa-Zelllinien sollten mithilfe des klonogenen Assays analysiert werden. In einer in vivo Pilotstudie wurde der Effekt von PLA2R1 auf das Tumorwachstum mittels Xenograft-Mausmodellen (männliche SCID/beige Mäuse) durch subkutane Injektion der transfizierten LNCaP- (n = 5) und PC-3-Zellen (n = 9) überprüft. Die PLA2R1-Promotormethylierung als sensitiver Biomarker für die pädiatrische ALL wurde durch Isolation und Bisulfit-Behandlung der genomischen DNA von Knochenmark (KM)-Aspiraten und Leukozyten des peripheren Blutes (PB) von ALL-diagnostizierten Kindern (n = 44) sowie einer anschließenden Analyse mittels digitaler PCR (dPCR) evaluiert. Die Ergebnisse konnten mit dem Methylierungsstatus einer gesunden Kontrollgruppe (n = 20) verglichen werden. Ergebnisse und Schlussfolgerungen: In LNCaP-PLA2R1 und Jurkat-PLA2R1 konnte im Gegensatz zu den dazugehörigen Kontrollzellen eine stabile Überexpression des Rezeptors auf Ebene der Genexpression und Proteinsynthese detektiert werden. Bei PC-3-KD-Zellen war eine Reduktion der PLA2R1-Genexpression und eine Repression der Proteinsynthese unterhalb der Nachweisgrenze des Western Blot Assays zu verzeichnen, während PC-3-Ctrl-Zellen eine Genexpression und Proteinsynthese des Rezeptors zeigten. Die Zellviabilität/ Proliferation und Motilität war signifikant erhöht in LNCaP-PLA2R1 und PC-3-Ctrl im Vergleich zu LNCaP-Ctrl- und PC-3-KD-Zellen. Demgegenüber war eine Verminderung von Apoptose und Koloniewachstum in LNCaP-PLA2R1 und PC-3-Ctrl-Zellen nachweisbar. Durch Genexpressionsanalysen konnte eine Induktion der Expression von Fibronektin 1 (FN1), TWIST Homolog 1 (TWIST1) und Cyclin-abhängige Kinase 6 (CDK6) in LNCaP-PLA2R1-Zellen identifiziert werden. In vivo schien die PLA2R1-abhängige negative Regulation des Koloniewachstums die pro-onkogenen Eigenschaften des Rezeptors zu überwiegen. Dies resultierte in einem verminderten Tumorwachstum von LNCaP-PLA2R1 und einer tumorsuppressiven Rolle des Rezeptors in dieser PCa-Zelllinie. Im Gegensatz dazu zeigten PC-3-Ctrl-Zellen ein schnelleres Tumorwachstum im Xenograft-Mausmodell, was für einen pro-onkogenen Effekt der endogenen PLA2R1-Expression in PC-3-Zellen sprechen würde. Der differenzielle Einfluss von PLA2R1 auf die Regulierung des Tumorzellwachstums könnte im Zusammenhang mit der veränderten Expression von FN1, TWIST1 und CDK6 stehen, jedoch sind weiterführende Experimente nötig, um die Beteiligung dieser Gene in der PLA2R1-Signaltransduktion zu untersuchen. Die Analyse der Zellwachstumskurve der transfizierten Jurkat-Zellen zeigte eine Abnahme der Proliferationsrate und eine Zunahme des Anteils an toten Zellen bei Jurkat-PLA2R1 im Vergleich zu Jurkat-Ctrl-Zellen. Durchflusszytometrische Analysen bestätigten eine Abnahme des Anteils gesunder sowie eine vermehrte Repräsentation von apoptotischen und nekrotischen Jurkat-PLA2R1-Zellen im Vergleich zur Kontrolle, was einen tumorsuppressiven Einfluss des Rezeptors bei der pädiatrischen ALL suggeriert. Die Funktion von PLA2R1 als Tumorsuppressor steht im Einklang mit der festgestellten Hypermethylierung des Rezeptor-Promotors in KM-Aspiraten und PB-Proben von pädiatrischen Patienten mit prä-B und common ALL zum Zeitpunkt der Diagnose der primären Krebserkrankung und des ALL-Rezidives im Vergleich zu der Kontrollgruppe. Der parallele Abfall der PLA2R1-Promotormethylierung und der relativen Blastenzahl im Verlauf der ALL-Induktionstherapie sowie eine signifikante, positive Korrelation beider Größen in KM- und PB-Proben ließen auf die leukämischen Blasten als Quelle der Hypermethylierung des PLA2R1-Promotors schließen. Überdies wiesen Hochrisikopatienten der pädiatrischen ALL eine signifikant höhere PLA2R1-Promotormethylierung am Tag 15 der ALL-Induktionstherapie auf im Vergleich zu Patienten mit einem geringeren Risiko. Zusammenfassend deuteten die in vitro und in vivo Daten auf eine wichtige Funktion des Rezeptors bei der Regulation von Proliferation und Apoptose bei der pädiatrischen ALL hin. Die Analyse der PLA2R1-Promotormethylierung könnte als sensitiver Biomarker zu einer verbesserten ALL-Therapiekontrolle, MRD-Überwachung und Risikostratifizierung während der ALL-Induktionstherapie beitragen.:Inhaltsverzeichnis 1 Zusammenfassung 4 2 Abstract 8 3 Einführung in die Thematik 11 4 Publikation 1: “Diverse Effects of Phospholipase A2 Receptor Expression on LNCaP and PC-3 Prostate Cancer Cell Growth in vitro and in vivo” 24 5 Publikation 2: “Methylation of the Phospholipase A2 Receptor 1 Promoter Region in Childhood B Cell Acute Lymphoblastic Leukaemia” 25 6 Diskussion und Ausblick 26 7 Literaturverzeichnis 32 8 Danksagung 41 9 Anlagen 42Background: The phospholipase A2 receptor 1 (PLA2R1) is a type I transmembrane receptor and a member of the mannose receptor family. Physiological and pathophysiological functions of PLA2R1 are still not completely understood. However, PLA2R1 expression is discussed to have an impact on proliferation, apoptosis/ senescence, adhesion, migration/ invasion as well as inflammatory cell responses and divergent PLA2R1 expression is detectable in different types of cancer compared to corresponding normal tissues. In this context, receptor expression is linked to both a pro-oncogenic/ pro-migratory and a tumour-suppressive/ pro-apoptotic impact in different cancer cells. Moreover, PLA2R1 expression is controlled by epigenetic mechanisms and hypermethylation of the PLA2R1 promoter is associated with silenced expression of the receptor in the prostate carcinoma (PCa) cell line LNCaP and the paediatric, acute lymphocytic leukaemia (ALL) cell line Jurkat. Previous work revealed a defined hypermethylated region of the PLA2R1 promoter in adult patients with acute leukaemia and myelodysplastic syndrome (MDS). PLA2R1 promoter methylation correlated with disease stage and International Prognostic Scoring System (IPSS) classification. Aim: The aim of the present study was to evaluate the function of PLA2R1 in PCa cell lines LNCaP and PC-3. The receptor expression is silenced in LNCaP but upregulated in PC-3 cells compared to normal prostate epithelial cells. A pilot in vivo study addressed the effects of PLA2R1 in mice xenografted with transfected LNCaP and PC-3 cells. Based on previous findings of PLA2R1 promoter hypermethylation in adult ALL and MDS patients, the aim of the present study was to analyse the methylation status of the PLA2R1 promoter in paediatric ALL patients compared to healthy individuals. PLA2R1 methylation analysis was evaluated as sensitive biomarker for ALL treatment response, minimal residual disease (MRD) monitoring, and risk stratification. The impact of the receptor in childhood ALL was investigated by transfection-based re-expression of PLA2R1 in the paediatric ALL cell line Jurkat and the effect of different PLA2R1 expression levels on proliferation and apoptosis/ necrosis was analysed in in vitro experiments. Material and Methods: Stable PLA2R1 overexpression was achieved by transfection of LNCaP (LNCaP-PLA2R1) and Jurkat cells (Jurkat-PLA2R1) with a PLA2R1 plasmid vector. Results were compared to control vector transfected LNCaP (LNCaP-Ctrl) and Jurkat cells (Jurkat-Ctrl). Alternatively, PLA2R1 was knocked down using CRISPR/Cas9 in PC-3 cells (PC-3-KD) and compared to the corresponding control-transfected cells (PC-3-Ctrl). Gene expression analysis was conducted by quantitative reverse transcription PCR (RT-qPCR). PLA2R1 protein synthesis was analysed by western blot. The impact of the differential PLA2R1 expression on proliferative and metastatic parameters of transfected cancer cells was investigated in vitro. Cell viability/ proliferation was assessed by means of WST-1 Assay for adherent cells and via cell growth curve analysis after trypan blue staining for suspension cells. Cell motility and proliferation of transfected PCa cell lines were estimated by wound healing assay. Hydrogen peroxide-stimulated apoptosis was analysed by Caspase-Glo® 3/7 Assay and RealTime-Glo™ Annexin V Apoptosis and Necrosis Assay for transfected PCa cell lines and flow cytometric analysis after Annexin-V-FLUOS/ Hoechst 33258 staining for transfected Jurkat cells. Colony formation of transfected PCa cell lines was evaluated by clonogenic assay. A pilot in vivo study addressed the effects of PLA2R1 in mice xenografted with transfected LNCaP (n = 5) and PC-3 cells (n = 9). Evaluating PLA2R1 promoter methylation as sensitive biomarker for paediatric ALL, genomic DNA was isolated from bone marrow (BM) and peripheral blood (PB) of 44 paediatric ALL patients. After bisulfite treatment of isolated DNA samples, PLA2R1 methylation was analysed using digital PCR and compared to 20 healthy controls. Results and Conclusions: PLA2R1 gene expression and protein synthesis were detectable in LNCaP-PLA2R1, PC-3-Ctrl, and Jurkat-PLA2R1 cells but not in LNCaP-Ctrl and Jurkat-Ctrl cells. In PC-3-KD cells, PLA2R1 gene expression was significantly reduced compared to PC-3-Ctrl and PLA2R1 protein synthesis of PC-3-KD cells was below the limit of detection of western blot analysis. Cell viability/proliferation and motility were significantly increased in LNCaP-PLA2R1 and PC-3-Ctrl compared to LNCaP-Ctrl and PC-3-KD cells, respectively. However, levels of apoptosis and clonogenicity were reduced in LNCaP-PLA2R1 and PC-3-Ctrl cells. Gene expression analysis revealed an up-regulation of fibronectin 1 (FN1), TWIST homolog 1 (TWIST1), and cyclin-dependent kinase 6 (CDK6) in LNCaP-PLA2R1 compared to control cells. In LNCaP xenografts, PLA2R1-dependent regulation of clonogenicity appeared to outweigh the receptor’s pro-oncogenic properties, resulting in decreased tumour growth, supporting the tumour-suppressive role of PLA2R1. Alternatively, PC-3-Ctrl xenografts exhibited faster tumour growth compared to PC-3-KD cells, suggesting a pro-oncogenic effect of endogenous PLA2R1 expression. The differential growth-regulatory effects of PLA2R1 may be mediated by FN1, TWIST1, and CDK6 expression, although further investigation is required. Cell growth curve analyses of transfected Jurkat cells revealed a decreased proliferation and increased cell death of Jurkat-PLA2R1 compared to Jurkat-Ctrl cells. Flow cytometry confirmed the reduced fraction of healthy cells and an increase of the apoptotic and necrotic fractions in Jurkat-PLA2R1 cells compared to control cells, suggesting a tumour-suppressive effect of the receptor in paediatric ALL. PLA2R1’s tumour-suppressive function is in accordance with hypermethylation of the receptor promoter in BM aspirates and PB samples of paediatric patients diagnosed with pre-B and common ALL as well as in patients with disease relapse in comparison to healthy controls. PLA2R1 methylation decreased along with leukaemic blast cell reduction during ALL induction treatment and significant positive correlations between PLA2R1 methylation and leukaemic blast cell numbers of BM and PB samples were observable. Therefore, our data suggests that leukaemic blasts are the origin of PLA2R1 hypermethylation in BM and PB samples. Moreover, high risk paediatric ALL patients exhibited increased levels of PLA2R1 promoter methylation compared to non-high risk groups on day 15 of ALL induction treatment. Collected data indicates that PLA2R1 promoter methylation quantitation can be used as biomarker for ALL induction treatment control, risk stratification, and early detection of ALL relapse.:Inhaltsverzeichnis 1 Zusammenfassung 4 2 Abstract 8 3 Einführung in die Thematik 11 4 Publikation 1: “Diverse Effects of Phospholipase A2 Receptor Expression on LNCaP and PC-3 Prostate Cancer Cell Growth in vitro and in vivo” 24 5 Publikation 2: “Methylation of the Phospholipase A2 Receptor 1 Promoter Region in Childhood B Cell Acute Lymphoblastic Leukaemia” 25 6 Diskussion und Ausblick 26 7 Literaturverzeichnis 32 8 Danksagung 41 9 Anlagen 4

PowerPedia: changing energy usage with the help of a community-based smartphone application

When it comes to conserving electricity, it is crucial for users to know how much energy is consumed by individual appliances. However, the technical feedback provided by existing energy consumption feedback systems in the form of dry numbers and intangible units is not appropriate for most users. To address this shortcoming, we developed PowerPedia, a system that provides behavior-influencing feedback over and above pure consumption values. By integrating a community platform—a Wikipedia for electrical appliances—PowerPedia enables users to identify and compare the consumption of their domestic appliances with that of others. It thus helps users to better understand their electricity consumption and take effective action to save electricit

Ketogenic diet and fasting diet as Nutritional Approaches in Multiple Sclerosis (NAMS): protocol of a randomized controlled study

BACKGROUND: Multiple sclerosis (MS) is the most common inflammatory disease of the central nervous system in young adults that may lead to progressive disability. Since pharmacological treatments may have substantial side effects, there is a need for complementary treatment options such as specific dietary approaches. Ketone bodies that are produced during fasting diets (FDs) and ketogenic diets (KDs) are an alternative and presumably more efficient energy source for the brain. Studies on mice with experimental autoimmune encephalomyelitis showed beneficial effects of KDs and FDs on disease progression, disability, cognition and inflammatory markers. However, clinical evidence on these diets is scarce. In the clinical study protocol presented here, we investigate whether a KD and a FD are superior to a standard diet (SD) in terms of therapeutic effects and disease progression. METHODS: This study is a single-center, randomized, controlled, parallel-group study. One hundred and eleven patients with relapsing-remitting MS with current disease activity and stable immunomodulatory therapy or no disease-modifying therapy will be randomized to one of three 18-month dietary interventions: a KD with a restricted carbohydrate intake of 20-40 g/day; a FD with a 7-day fast every 6 months and 14-h daily intermittent fasting in between; and a fat-modified SD as recommended by the German Nutrition Society. The primary outcome measure is the number of new T2-weighted MRI lesions after 18 months. Secondary endpoints are safety, changes in relapse rate, disability progression, fatigue, depression, cognition, quality of life, changes of gut microbiome as well as markers of inflammation, oxidative stress and autophagy. Safety and feasibility will also be assessed. DISCUSSION: Preclinical data suggest that a KD and a FD may modulate immunity, reduce disease severity and promote remyelination in the mouse model of MS. However, clinical evidence is lacking. This study is the first clinical study investigating the effects of a KD and a FD on disease progression of MS

Instructing human macrophage polarization by stiffness and glycosaminoglycan functionalization in 3D collagen networks

Dynamic alterations of composition and mechanics of the extracellular matrix (ECM) are suggested to modulate cellular behavior including plasticity of macrophages (MPhs) during wound healing. In this study, engineered 3D fibrillar matrices based on naturally occurring biopolymers (collagen I, glycosaminoglycans (GAGs)) were used to mimic matrix stiffening as well as modification by sulfated and non-sulfated GAGs at different stages of wound healing. Human MPhs were found to sensitively respond to these microenvironmental cues in terms of polarization towards pro-inflammatory or wound healing phenotypes over 6 days in vitro. MPhs exhibited a wound healing phenotype in stiffer matrices as determined by protein and gene expression of relevant cytokines (IL10, IL12, TNF). Presence of sulfated and non-sulfated GAGs inhibited this polarization effect. Furthermore, control experiments on 2D matrices stressed the relevance of using stiffness-controlled 3D matrices, as MPhs showed a reciprocal polarization behavior depending on GAG presence. Hence, the results indicate a strong influence of dimensionality, stiffness, and GAG presence of the biomaterial scaffold on MPh polarization and emphasize the need for matrices closely mimicking the 3D in vivo context with a variable stiffness and GAG composition in in vitro studies

Lipid Mediator Profiles Predict Response to Therapy with an Oral Frankincense Extract in Relapsing-Remitting Multiple Sclerosis

Lipid mediators (LMs) are a unique class of immunoregulatory signalling molecules and known to be affected by frankincense extracts. We performed LM profiling by metabololipidomics in plasma samples from 28 relapsing-remitting multiple sclerosis (RR-MS) patients who took a standardised frankincense extract (SFE) daily for eight months in a clinical phase IIa trial (NCT01450124) and in 28 age- and gender-matched healthy controls. Magnetic resonance imaging, immunological outcomes and serum neurofilament light chain levels were correlated to changes in the LM profiles of the RR-MS cohort. Eight out of 44 analysed LMs were significantly reduced during an eight-month treatment period by the SFE and seven of these eight significant LM derive from the 5-lipoxygenase (5-LO) pathway. Baseline levels of 12- and 15-LO products were elevated in patients who exhibited disease activity (EDA) during SFE treatment compared to no-evidence-of-disease-activity (NEDA) patients and could predict treatment response to the SFE in a prediction model at baseline. Oral treatment with an SFE significantly reduces 5-LO-derived LMs in RR-MS patients during an eight-month treatment period. Treatment response to an SFE, however, seems to be related to 12-,15-LO and cyclooxygenase product levels before SFE exposure. Further studies should confirm their biomarker potential in RR-MS and SFE treatment

Metabolic, mental and immunological effects of normoxic and hypoxic training in multiple sclerosis patients: a pilot study

Background: Physical activity might attenuate inflammation and neurodegeneration in multiple sclerosis (MS). Erythropoietin, which is produced upon exposure to hypoxia, is thought to act as a neuroprotective agent in MS. Therefore, we studied the effects of intermittent hypoxic training on activity energy expenditure, maximal workload, serum erythropoietin, and immunophenotype focusing on regulatory and IL-17A-producing T cells. Methods: We assigned 34 relapsing-remitting MS patients within a randomized, single blind, parallel-group study to either normoxic (NO) or hypoxic (HO) treadmill training, both 3 times/week for 1 h over 4 weeks (Clinicaltrials.gov identifier: NCT02509897). Before and after training, activity energy expenditure (metabolic chamber), maximal workload (incremental treadmill test), walking ability, depressive symptoms (Beck Depression Inventory I), serum erythropoietin concentrations, and immunophenotype of peripheral blood mononuclear cells (PBMCs) were assessed. Results: Energy expenditure did not change due to training in both groups, but was rather fueled by fat than by carbohydrate oxidation after HO training (P = 0.002). Maximal workload increased by 40 Watt and 42 Watt in the NO and HO group, respectively (both P < 0.0001). Distance patients walked in 6 min increased by 25 m and 27 m in the NO and HO group, respectively (NO P = 0.02; HO P = 0.01). Beck Depression Inventory score markedly decreased in both groups (NO P = 0.03; HO P = 0.0003). NO training shifted Treg subpopulations by increasing and decreasing the frequency of CD39(+) and CD31(+) Tregs, respectively, and decreased IL-17A-producing CD4(+) cells. HO training provoked none of these immunological changes. Erythropoietin concentrations were within normal range and did not significantly change in either group. Conclusion: 4 weeks of moderate treadmill training had considerable effects on fitness level and mood in MS patients, both under normoxic and hypoxic conditions. Additionally, NO training improved Th17/Treg profile and HO training improved fatty acid oxidation during exercise. These effects could not be attributed to an increase of erythropoietin

C‐reactive protein flare‐response predicts long‐term efficacy to first‐line anti‐PD‐1‐based combination therapy in metastatic renal cell carcinoma

Objectives Immune checkpoint blockade (IO) has revolutionised the treatment of metastatic renal cell carcinoma (mRCC). Early C-reactive protein (CRP) kinetics, especially the recently introduced CRP flare-response phenomenon, has shown promising results to predict IO efficacy in mRCC, but has only been studied in second line or later. Here, we aimed to validate the predictive value of early CRP kinetics for 1st-line treatment of mRCC with αPD-1 plus either αCTLA-4 (IO+IO) or tyrosine kinase inhibitor (IO+TKI). Methods In this multicentre retrospective study, we investigated the predictive potential of early CRP kinetics during 1st-line IO therapy. Ninety-five patients with mRCC from six tertiary referral centres with either IO+IO (N = 59) or IO+TKI (N = 36) were included. Patients were classified as CRP flare-responders, CRP responders or non-CRP responders as previously described, and their oncological outcome was compared. Results Our data validate the predictive potential of early CRP kinetics in 1st-line immunotherapy in mRCC. CRP responders, especially CRP flare-responders, had significantly prolonged progression-free survival (PFS) compared with non-CRP responders (median PFS: CRP flare-responder: 19.2 months vs. responders: 16.2 vs. non-CRP responders: 5.6, P < 0.001). In both the IO+IO and IO+TKI subgroups, early CRP kinetics remained significantly associated with improved PFS. CRP flare-response was also associated with long-term response ≥ 12 months. Conclusions Early CRP kinetics appears to be a low-cost and easy-to-implement on-treatment biomarker to predict response to 1st-line IO combination therapy. It has potential to optimise therapy monitoring and might represent a new standard of care biomarker for immunotherapy in mRCC

Analysis of Lymphocytic DNA Damage in Early Multiple Sclerosis by Automated Gamma-H2AX and 53BP1 Foci Detection: A Case Control Study

Background In response to DNA double-strand breaks, the histone protein H2AX becomes phosphorylated at its C-terminal serine 139 residue, referred to as γ-H2AX. Formation of γ-H2AX foci is associated with recruitment of p53-binding protein 1 (53BP1), a regulator of the cellular response to DNA double-strand breaks. γ-H2AX expression in peripheral blood mononuclear cells (PBMCs) was recently proposed as a diagnostic and disease activity marker for multiple sclerosis (MS). Objective To evaluate the significance of γ-H2AX and 53BP1 foci in PBMCs as diagnostic and disease activity markers in patients with clinically isolated syndrome (CIS) and early relapsing-remitting MS (RRMS) using automated γ-H2AX and 53BP1 foci detection. Methods Immunocytochemistry was performed on freshly isolated PBMCs of patients with CIS/early RRMS (n = 25) and healthy controls (n = 27) with γ-H2AX and 53BP1 specific antibodies. Nuclear γ-H2AX and 53BP1 foci were determined using a fully automated reading system, assessing the numbers of γ-H2AX and 53BP1 foci per total number of cells and the percentage of cells with foci. Patients underwent contrast enhanced 3 Tesla magnetic resonance imaging (MRI) and clinical examination including expanded disability status scale (EDSS) score. γ-H2AX and 53BP1 were also compared in previously frozen PBMCs of each 10 CIS/early RRMS patients with and without contrast enhancing lesions (CEL) and 10 healthy controls. Results The median (range) number of γ-H2AX (0.04 [0–0.5]) and 53BP1 (0.005 [0–0.2]) foci per cell in freshly isolated PBMCs across all study participants was low and similar to previously reported values of healthy individuals. For both, γ-H2AX and 53BP1, the cellular focus number as well as the percentage of positive cells did not differ between patients with CIS/RRMS and healthy controls. γ-H2AX and 53BP1 levels neither correlated with number nor volume of T2-weighted lesions on MRI, nor with the EDSS. Although γ-H2AX, but not 53BP1, levels were higher in previously frozen PBMCs of patients with than without CEL, γ-H2AX values of both groups overlapped and γ-H2AX did not correlate with the number or volume of CEL. Conclusion γ-H2AX and 53BP1 foci do not seem to be promising diagnostic or disease activity biomarkers in patients with early MS. Lymphocytic DNA double-strand breaks are unlikely to play a major role in the pathophysiology of MS

Metabolic, Mental and Immunological Effects of Normoxic and Hypoxic Training in Multiple Sclerosis Patients: A Pilot Study

Background: Physical activity might attenuate inflammation and neurodegeneration in multiple sclerosis (MS). Erythropoietin, which is produced upon exposure to hypoxia, is thought to act as a neuroprotective agent in MS. Therefore, we studied the effects of intermittent hypoxic training on activity energy expenditure, maximal workload, serum erythropoietin, and immunophenotype focusing on regulatory and IL-17A-producing T cells.Methods: We assigned 34 relapsing-remitting MS patients within a randomized, single blind, parallel-group study to either normoxic (NO) or hypoxic (HO) treadmill training, both 3 times/week for 1 h over 4 weeks (Clinicaltrials.gov identifier: NCT02509897). Before and after training, activity energy expenditure (metabolic chamber), maximal workload (incremental treadmill test), walking ability, depressive symptoms (Beck Depression Inventory I), serum erythropoietin concentrations, and immunophenotype of peripheral blood mononuclear cells (PBMCs) were assessed.Results: Energy expenditure did not change due to training in both groups, but was rather fueled by fat than by carbohydrate oxidation after HO training (P = 0.002). Maximal workload increased by 40 Watt and 42 Watt in the NO and HO group, respectively (both P &lt; 0.0001). Distance patients walked in 6 min increased by 25 m and 27 m in the NO and HO group, respectively (NO P = 0.02; HO P = 0.01). Beck Depression Inventory score markedly decreased in both groups (NO P = 0.03; HO P = 0.0003). NO training shifted Treg subpopulations by increasing and decreasing the frequency of CD39+ and CD31+ Tregs, respectively, and decreased IL-17A-producing CD4+ cells. HO training provoked none of these immunological changes. Erythropoietin concentrations were within normal range and did not significantly change in either group.Conclusion: 4 weeks of moderate treadmill training had considerable effects on fitness level and mood in MS patients, both under normoxic and hypoxic conditions. Additionally, NO training improved Th17/Treg profile and HO training improved fatty acid oxidation during exercise. These effects could not be attributed to an increase of erythropoietin.Clinical Trial Registration: ClinicalTrials.gov; NCT02509897; http://www.clinicaltrials.go