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Study suggests senolytic therapies could slow spinal disc degeneration
Thomas Jefferson University researchers have demonstrated that senolytic therapies targeting cellular senescence may delay early intervertebral disc degeneration, a major cause of chronic back and neck pain.
Gene-based CIN score predicts breast cancer survival and immunotherapy response
A 13-gene chromosomal instability scoring system developed by Shanghai researchers correlates with survival outcomes and immunotherapy response in breast cancer patients.
AI platform identifies synergistic herbal medicine combinations for complex diseases
Chinese researchers have developed HerbSyner_Finder, an open-access computational platform that identifies synergistic combinations of herbal medicine ingredients from thousands of candidates.
Platinum-antibody conjugates enhance immunotherapy while reducing chemotherapy toxicity
A novel platinum(IV)-antibody conjugate platform delivers low-dose chemotherapy directly to tumours, upregulating MHC-I expression and enhancing anti-PD-1 responses while minimising systemic exposure. The approach addresses immune evasion mechanisms that limit checkpoint inhibitor efficacy.
Parse Biosciences and bit.bio map transcription factor-driven cell identity
Parse Biosciences and bit.bio have formed an alliance to map transcription factor-driven cell identity using single cell sequencing and causal transcriptomics.
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Parse Biosciences and bit.bio map transcription factor-driven cell identity
Parse Biosciences and bit.bio have formed an alliance to map transcription factor-driven cell identity using single cell sequencing and causal transcriptomics.
How researchers are recreating the human heart in the lab
Many promising therapies fail because preclinical models do not fully capture the complexity of the human heart. A new review explores how 3D cardiac constructs could improve disease modelling, drug screening and safety assessment.
Metabolic vulnerabilities identified in rare Fibrolamellar liver cancer
Researchers have identified metabolic vulnerabilities in Fibrolamellar cancer, a rare liver malignancy affecting adolescents and young adults, using functional profiling and mass spectrometry. The findings suggest chemotherapy-resistant tumours may be susceptible to metabolism-targeted therapies.
Ginkgo Bioworks launches ADME-One platform for early-stage screening
Ginkgo Bioworks has launched ADME-One, an integrated platform combining high-throughput ADME testing with AI-powered human pharmacokinetic projections.
AI platform identifies novel gp130 inhibitor for colorectal cancer
An AI-assisted drug discovery platform using transfer learning has identified a promising gp130 inhibitor for colorectal cancer.
AI identifies 23 antiviral candidates for Bundibugyo Ebola strain
US researchers have deployed artificial intelligence and molecular docking software to identify 23 antiviral compounds with potential activity against Bundibugyo Ebolavirus, as the rare strain continues to spread in the Democratic Republic of Congo with a fatality rate approaching 40 percent.
Cardiac organoids repair heart attack damage in preclinical study
Researchers have developed a scalable bioreactor-based system to produce cardiac organoids that successfully integrated into damaged heart tissue in porcine models of myocardial infarction, improving cardiac function and reducing scar formation without triggering arrhythmias.
Organoid study reveals valproate’s impact on developing brain
German researchers have used cerebral organoids to investigate how the epilepsy medication valproate interferes with early brain development, identifying significant disruption to the extracellular matrix and neuronal maturation that may explain increased neurodevelopmental risks in exposed foetuses.
3D-printed system doubles growth speed of transplantable gut organoids
A novel 3D-printed confined culture system has enabled researchers to generate larger, more advanced human gastrointestinal organoids in half the time of traditional methods, producing transplantation-ready tissues with self-organised enteric neural networks within 14 days.
Cholesterol trafficking disruption targets TP53-mutant cancers
Scientists have identified a mechanism to starve aggressive cancers by blocking cholesterol transport within tumour cells, offering a targeted approach for malignancies carrying TP53 mutations, present in half of all cancers.
Study reveals how GLP-1 drugs trigger weight loss in brain cells
NIH researchers have identified the intracellular signalling pathways through which semaglutide and other GLP-1 receptor agonists induce weight loss, revealing why patient responses vary and treatment effects plateau over time.
ISSCR consortium submits recommendations on NAMs to FDA
The ISSCR Consortium on Advanced Stem Cell-Based Models is calling for greater flexibilty from the FDA to accomodate rapidly changing technologies like stem cell-derived systems, organoids and computational approaches.
PERM1 protein linked to heart recovery in LVAD patients
A newly identified protein may explain why some failing hearts recover function following mechanical support while others do not.
C-Path launches coalition to advance human-relevant drug discovery
The New Approach Methodologies Developer Coalition brings together technology developers, pharmaceutical companies and regulators in a precompetitive initiative to establish qualification standards for complex in vitro models, microphysiological systems and related human-relevant technologies.
New study indentifies Golgi apparatus proteins as cancer growth drivers
Researchers at the Harrington Discovery Institute have identified cellular mechanisms involving Golgi apparatus proteins that drive cancer progression by trafficking growth factor receptors to cell surfaces.
Gut-targeted drug proves effective against polycystic ovary syndrome in mice
Fudan University researchers report that fexaramine, an intestine-specific farnesoid X receptor agonist, improved metabolic and reproductive parameters in mouse models of polycystic ovary syndrome, supporting the gut–ovary axis hypothesis.
Circio’s circular RNA platform shows 40-fold gene expression boost
Circio Holding has presented preclinical data at ASGCT demonstrating that its circVec circular RNA platform achieved up to 40-fold greater gene expression in cardiac tissue and 50-fold in ocular tissue compared with conventional AAV gene therapy approaches, potentially enabling significant dose reductions and improved safety profiles.
OutSee wins Longitude Prize award for ALS target discovery
OutSee has secured a Discovery Award from the Longitude Prize on ALS, providing £100,000 in funding and access to genomic data from 9,000 patients. The company will deploy its AI-driven Nomaly platform to identify novel therapeutic targets for amyotrophic lateral sclerosis over a nine-month research programme.
AI-designed viral vectors achieve 50-fold brain enrichment over AAV9
WhiteLab Genomics has presented preclinical data showing that viral vectors designed using artificial intelligence achieved approximately 50-fold higher DNA enrichment in the brain compared to AAV9, with no detectable liver signal following intravenous administration in mice.
RAGE receptor identified as key driver of age-related metastasis
Georgetown Lombardi researchers have identified RAGE, an inflammatory receptor, as a key mediator of age-related breast cancer metastasis.