Overactive bladder (OAB) syndrome, characterised by urinary urgency, frequency, and nocturia can significantly impacts patients' quality of life. Current diagnosis is clinical, but complex cases often Show more
Overactive bladder (OAB) syndrome, characterised by urinary urgency, frequency, and nocturia can significantly impacts patients' quality of life. Current diagnosis is clinical, but complex cases often require invasive urodynamic studies (UDS), which are costly, subjective, and carry risks like discomfort and infection. Therefore, we hypothesise that urinary biomarkers could serve as noninvasive diagnostic tools for OAB. Establishing a reliable biomarker profile could ultimately lessen the reliance on invasive US, provided clinical validity is confirmed. Following PRISMA guidelines and registered under PROSPERO (ID: CRD420251026279), a comprehensive search across six major databases was conducted from their inception until September 2025, yielding 39 studies for qualitative analysis. This qualitative review identified several promising biomarkers for OAB diagnosis. Notably, NGF and BDNF consistently emerged as elevated in OAB patients and were responsive to treatment. Additionally, TNF-α, MIP-1β, Tie2, and CCL2 showed diagnostic potential, with TNF-α and MIP-1β particularly useful for differentiating OAB from interstitial cystitis/bladder pain syndrome (IC/BPS) and urinary tract infections (UTIs). However, limitations such as variability in measurement protocols and a lack of specificity for certain biomarkers (e.g. MMP-1, 8-OHdG) were noted. Urinary biomarkers offer a promising noninvasive approach to diagnosing OAB. Further validation of promising markers, particularly NGF, BDNF, TNF-α, MIP-1β, and CCL2, could lead to individualised therapies. While promising, the routine replacement of UDS remains an aspirational goal dependent on future large-scale validation. Show less
We have designed the first antigen-less pro-vaccine, named 8206, for treating autoimmune diseases. Composed of dexamethasone, rapamycin, and R848 at a mass ratio of 8:20:6, 8206 is a complete toleroge Show more
We have designed the first antigen-less pro-vaccine, named 8206, for treating autoimmune diseases. Composed of dexamethasone, rapamycin, and R848 at a mass ratio of 8:20:6, 8206 is a complete tolerogenic adjuvant that acts systemically to form an active vaccine in situ with endogenous pathogenic autoantigens. This active vaccine suppresses autoimmunity by expanding antigen-specific Treg cells in affected tissues. In a mouse model of atherosclerosis, 8206 successfully targeted all three analyzed pathogenic autoantigens (ApoB, HSP60, and HMGB1) and inhibited disease progression. These findings suggest that 8206 can potentially serve as a universal treatment vaccine for autoimmune diseases by eliminating the need for exogenous immunogens, with implications for broad applications in immunotherapy. Show less
We have recently identified lens epithelium-derived growth factor (LEDGF/p75, also known as PSIP1) as a component of the homologous recombination DNA repair machinery. Through its Pro-Trp-Trp-Pro (PWW Show more
We have recently identified lens epithelium-derived growth factor (LEDGF/p75, also known as PSIP1) as a component of the homologous recombination DNA repair machinery. Through its Pro-Trp-Trp-Pro (PWWP) domain, LEDGF/p75 binds to histone marks associated with active transcription and promotes DNA end resection by recruiting DNA endonuclease retinoblastoma-binding protein 8 (RBBP8/CtIP) to broken DNA ends. Here we show that the structurally related PWWP domain-containing protein, hepatoma-derived growth factor-related protein 2 (HDGFRP2), serves a similar function in homologous recombination repair. Its depletion compromises the survival of human U2OS osteosarcoma and HeLa cervix carcinoma cells and impairs the DNA damage-induced phosphorylation of replication protein A2 (RPA2) and the recruitment of DNA endonuclease RBBP8/CtIP to DNA double strand breaks. In contrast to LEDGF/p75, HDGFRP2 binds preferentially to histone marks characteristic for transcriptionally silent chromatin. Accordingly, HDGFRP2 is found in complex with the heterochromatin-binding chromobox homologue 1 (CBX1) and Pogo transposable element with ZNF domain (POGZ). Supporting the functionality of this complex, POGZ-depleted cells show a similar defect in DNA damage-induced RPA2 phosphorylation as HDGFRP2-depleted cells. These data suggest that HDGFRP2, possibly in complex with POGZ, recruits homologous recombination repair machinery to damaged silent genes or to active genes silenced upon DNA damage. Show less
GPCR inhibitors are highly prevalent in modern therapeutics. However, interference with complex GPCR regulatory mechanisms leads to both therapeutic efficacy and adverse effects. Recently, the sphingo Show more
GPCR inhibitors are highly prevalent in modern therapeutics. However, interference with complex GPCR regulatory mechanisms leads to both therapeutic efficacy and adverse effects. Recently, the sphingosine-1-phosphate (S1P) receptor inhibitor FTY720 (also known as Fingolimod), which induces lymphopenia and prevents neuroinflammation, was adopted as a disease-modifying therapeutic in multiple sclerosis. Although highly efficacious, dose-dependent increases in adverse events have tempered its utility. We show here that FTY720P induces phosphorylation of the C-terminal domain of S1P receptor 1 (S1P₁) at multiple sites, resulting in GPCR internalization, polyubiquitinylation, and degradation. We also identified the ubiquitin E3 ligase WWP2 in the GPCR complex and demonstrated its requirement in FTY720-induced receptor degradation. GPCR degradation was not essential for the induction of lymphopenia, but was critical for pulmonary vascular leak in vivo. Prevention of receptor phosphorylation, internalization, and degradation inhibited vascular leak, which suggests that discrete mechanisms of S1P receptor regulation are responsible for the efficacy and adverse events associated with this class of therapeutics. Show less