👤 Markus Bender

Post-stroke depression (PSD) is a common and clinically significant stroke complication associated with impaired rehabilitation potential and increased mortality risk. The prevalence of PSD varies from 25% to 59% depending on the duration of observation, reaching a peak in the first years after a stroke. The pathogenesis of PSD results from a complex interplay of biological and psychological factors that extends well beyond monoamine deficiency. Damage to monoaminergic pathways, neuroinflammation, hypothalamic-pituitary-adrenal axis dysfunction, decreased neuroplasticity (including BDNF deficiency), and impaired neural network integrity play a key role. The clinical presentation includes a complex of affective (apathy, anhedonia), cognitive (impaired executive functions), and dyssomnia disorders. While selective serotonin reuptake inhibitors remain the first choice for treatment of PSD, the current therapeutic approach requires targeting all pathogenesis links. A promising direction is the use of antidepressants with a complex mechanism of action, such as the original fluvoxamine, which combines serotonergic effects with anti-inflammatory and neuroprotective properties through sigma-1 receptor agonism. Optimizing PSD treatment is possible through a personalized approach that includes thorough screening and comprehensive correction of identified disorders. Show less

Alzheimer's disease (AD) is a progressive neurodegenerative disorder characterized by amyloid-β (Aβ) deposition, tau hyperphosphorylation, and synaptic loss. Emerging evidence indicates that apolipoprotein E (APOE) polymorphism and dysregulated ceramide metabolism are critical links among these pathogenic processes. Ceramide accumulation in the brain contributes to Aβ generation, tau phosphorylation, and neuronal apoptosis. Elevated ceramide levels have been observed in plasma, cerebrospinal fluid, and peripheral organs such as the liver, reflecting systemic lipid dysregulation. Lipoproteins-particularly low-density lipoprotein (LDL) and very low-density lipoprotein (VLDL)-transport ceramide across the blood-brain barrier, while apoE4 isoforms exacerbate this process by disrupting vascular integrity and lipid homeostasis. In addition, hepatic and gut-derived ceramides may influence neurodegeneration through the liver-gut-brain axis. Therapeutic interventions targeting ceramide synthesis (serine palmitoyltransferase inhibitors), production (neutral sphingomyelinase inhibitors), and the ceramide/sphingosine-1-phosphate (S1P) balance show potential in preclinical models for reducing Aβ pathology, tau aggregation, and neuroinflammation. These findings position ceramide metabolism as a critical mediator of AD pathogenesis and a promising target for diagnosis and treatment. Modulating ceramide and S1P signaling could complement current amyloid- and tau-directed therapies, offering new opportunities for disease modification and early intervention. Show less

Post-stroke depression (PSD) is a common and clinically significant complication of stroke, associated with worse rehabilitation potential and increased mortality risk. The prevalence of PSD varies from 25% to 59%, depending on the duration of follow-up, peaking in the first years after the stroke event. The pathogenesis of PSD results from a complex interplay of biological and psychological factors, extending far beyond monoamine deficiency. Key roles are played by damage to monoaminergic pathways, neuroinflammation, dysfunction of the hypothalamic-pituitary-adrenal axis, reduced neuroplasticity (including BDNF deficit), and impaired integrity of neuronal networks. The clinical picture is characterized by a complex of affective (apathy, anhedonia), cognitive (executive dysfunction), and dyssomnic disorders. Although selective serotonin reuptake inhibitors remain the first-line treatment, the modern therapeutic approach to PSD requires targeting all components of its pathogenesis. A promising direction is the use of antidepressants with a multimodal mechanism of action, such as the original drug fluvoxamine, which combines serotonergic effects with anti-inflammatory and neuroprotective properties via sigma-1 (σ1) receptor agonism. Optimizing PSD treatment is achievable through the implementation of a personalized approach, including long-term screening and comprehensive management of the identified disorders. Show less

Molecular biomarkers are valuable tools to predict the disease and determine its course. Several markers have been associated with inflammatory bowel disease (IBD) and irritable bowel syndrome (IBS); however, none is sufficiently reliable to enable accurate diagnosis. We characterized a broad panel of serum proteins to assess disease-specific biomarker profiles and associate these findings with faecal microbiota composition in newly diagnosed IBD and IBS patients and healthy individuals. The study cohort consisted of 49 newly diagnosed treatment-naïve adult patients (13 Crohn's disease (CD), 13 ulcerative colitis (UC), and 23 IBS) and 12 healthy individuals. Inflammatory and metabolism-related serum proteins were assessed using PEA multiplex panels, while gut microbiota composition was determined by 16 s rRNA gene amplicon sequencing. Serum proteins AXIN1, TNFSF14, RNASE3, EN-RAGE, OSM, ST1A1, CA13 and NADK were identified as markers with the most promising specificity/sensitivity and predictivity between healthy and disease groups, while IL-17A and TNFRSF9 enabled differentiation between IBD and IBS patients. Increased abundance of Enterobacteriaceae was associated with protein markers significantly elevated in IBD/IBS. In contrast, depletion of beneficial taxa like Ruminococcaceae and Verucomicrobiaceae (i.e. Akkermansia muciniphila) was associated with decrease of a set of markers in diseased groups. Differences in the abundance of Turicibacteriaceae were more predictive to discern CD from UC than any of the serum proteins investigated. By using a broad panel of inflammation and metabolism-related proteins, we determined serum markers with significantly different levels in treatment-naïve IBD and IBS patients compared to healthy individuals, as well as between IBD and IBS. KEY MESSAGES : Significant changes in the levels of several serum proteins and abundances of faecal bacterial taxa between study groups were found. Increased levels of AXIN1, TNFSF14, RNASE3, EN-RAGE, OSM, ST1A1, CA13 and NADK characterize both IBD and IBS, while IL-17A and TNFRSF9 differentiate IBD from IBS. Increase of Enterobacteriaceae and depletion of beneficial taxa Ruminococcaceae and Verucomicrobiaceae (i.e. Akkermansia muciniphila) was found in IBD and IBS. Differences in Turicibacteriaceae were more predictive to discern CD from UC than any of the serum proteins investigated. Show less

Zoonoses such as ZIKV and SARS-CoV-2 pose a severe risk to global health. There is urgent need for broad antiviral strategies based on host-targets filling gaps between pathogen emergence and availability of therapeutic or preventive strategies. Significant reduction of pathogen titers decreases spread of infections and thereby ensures health systems not being overloaded and public life to continue. Based on previously observed interference with FGFR1/2-signaling dependent impact on interferon stimulated gene (ISG)-expression, we identified Pim kinases as promising druggable cellular target. We therefore focused on analyzing the potential of pan-Pim kinase inhibition to trigger a broad antiviral response. The pan-Pim kinase inhibitor AZD1208 exerted an extraordinarily high antiviral effect against various ZIKV isolates, SARS-CoV-2 and HBV. This was reflected by strong reduction in viral RNA, proteins and released infectious particles. Especially in case of SARS-CoV-2, AZD1208 led to a complete removal of viral traces in cells. Kinome-analysis revealed vast changes in kinase landscape upon AZD1208 treatment, especially for inflammation and the PI3K/Akt-pathway. For ZIKV, a clear correlation between antiviral effect and increase in ISG-expression was observed. Based on a cell culture model with impaired ISG-induction, activation of the PI3K-Akt-mTOR axis, leading to major changes in the endolysosomal equilibrium, was identified as second pillar of the antiviral effect triggered by AZD1208-dependent Pim kinase inhibition, also against HBV. We identified Pim-kinases as cellular target for a broad antiviral activity. The antiviral effect exerted by inhibition of Pim kinases is based on at least two pillars: innate immunity and modulation of the endolysosomal system. Show less

Brain tumor patients are commonly treated with radiotherapy, but the efficacy of the treatment is limited by its toxicity, particularly the risk of radionecrosis. We used human cerebral organoids to investigate the mechanisms and nature of postirradiation brain image changes commonly linked to necrosis. Irradiation of cerebral organoids lead to increased formation of ZO1 Show less

Next-generation phenotyping (NGP) is an application of advanced methods of computer vision on medical imaging data such as portrait photos of individuals with rare disorders. NGP on portraits results in gestalt scores that can be used for the selection of appropriate genetic tests, and for the interpretation of the molecular data. Here, we report on an exceptional case of a young girl that was presented at the age of 8 and 15 and enrolled in NGP diagnostics on the latter occasion. The girl had clinical features associated with Koolen-de Vries syndrome (KdVS) and a suggestive facial gestalt. However, chromosomal microarray (CMA), Sanger sequencing, multiplex ligation-dependent probe analysis (MLPA), and trio exome sequencing remained inconclusive. Based on the highly indicative gestalt score for KdVS, the decision was made to perform genome sequencing to also evaluate noncoding variants. This analysis revealed a 4.7 kb de novo deletion partially affecting intron 6 and exon 7 of the KANSL1 gene. This is the smallest reported structural variant to date for this phenotype. The case illustrates how NGP can be integrated into the iterative diagnostic process of test selection and interpretation of sequencing results. Show less

We describe a precision medicine workflow, the integrated single nucleotide polymorphism network platform (iSNP), designed to determine the mechanisms by which SNPs affect cellular regulatory networks, and how SNP co-occurrences contribute to disease pathogenesis in ulcerative colitis (UC). Using SNP profiles of 378 UC patients we map the regulatory effects of the SNPs to a human signalling network containing protein-protein, miRNA-mRNA and transcription factor binding interactions. With unsupervised clustering algorithms we group these patient-specific networks into four distinct clusters driven by PRKCB, HLA, SNAI1/CEBPB/PTPN1 and VEGFA/XPO5/POLH hubs. The pathway analysis identifies calcium homeostasis, wound healing and cell motility as key processes in UC pathogenesis. Using transcriptomic data from an independent patient cohort, with three complementary validation approaches focusing on the SNP-affected genes, the patient specific modules and affected functions, we confirm the regulatory impact of non-coding SNPs. iSNP identified regulatory effects for disease-associated non-coding SNPs, and by predicting the patient-specific pathogenic processes, we propose a systems-level way to stratify patients. Show less

Coordinated reorganization of cytoskeletal structures is critical for key aspects of platelet physiology. While several studies have addressed the role of microtubules and filamentous actin in platelet production and function, the significance of their crosstalk in these processes has been poorly investigated. The microtubule-actin cross-linking factor 1 (MACF1; synonym: Actin cross-linking factor 7, ACF7) is a member of the spectraplakin family, and one of the few proteins expressed in platelets, which possess actin and microtubule binding domains thereby facilitating actin-microtubule interaction and regulation. We used megakaryocyte- and platelet-specific Macf1 knockout (Macf1 Show less

A genetic locus controlling the electrophoretic mobility of an acid phosphatase in the rat (Rattus norvegicus) is described. The locus, designed Acp-2, is not expressed in erythrocytes but is expressed in all other tissues studied. The product of Acp-2 hydrolyzes a wide variety of phosphate monoesters and is inhibited by L(+)-tartaric acid. Inbred rat strains have fixed either allele Acp-2a or allele Acp-2b. Codominant expression is observed in the respective F1 hybrids. Backcross progenies revealed the expected 1:1 segregation ratio. Possible loose linkage was found between the Acp-2 and the Pep-3 gene loci at a recombination frequency of 0.36 +/- 0.06. Show less