All articles by Ellen Capon (Drug Target Review)
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ArticleHow MMR-deficient colorectal cancers regulate their growth
Understanding how MMR-deficient colorectal cancers drive tumour growth and avoid immune detection could pave the way for personalised cancer medicine.
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ArticleChanging the paradigm of drug discovery processes with AI
We had the privilege of speaking to Cellarity’s CEO, Fabrice Chouraqui, about how the company is leveraging AI to completely revolutionise the drug discovery process and unlock treatments for a vast array of diseases, even in the absence of known targets.
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ArticleThe evolution of cell therapy to address unmet medical needs
We had the privilege of interviewing Brian Culley, CEO of Lineage Cell Therapeutics. He discusses how Lineage’s pluripotent stem cell platform is extraordinarily advantageous, details two early-stage programmes addressing auditory and vision disorders and reveals how Lineage is choosing to target conditions that will make a real difference.
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ArticleTessera Therapeutics: addressing Alpha-1 Antitrypsin Deficiency
As the industry looks beyond CRISPR to safely introduce therapeutic genomic changes anywhere in the body, in vivo gene editing holds immense potential to address diseases with a genetic basis. Boston-based biotech Tessera Therapeutics is pioneering the next generation of genetic medicines with its Gene Writing™ platform. At this year’s ...
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ArticleNew algorithm forms atlas of histomorphological phenotypes
The algorithm can accurately diagnose cases of lung adenocarcinoma, determining structural features that are statistically most significant for assessing disease severity and likelihood of tumour recurrence.
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ArticleThe promise of vectors targeting the LDL receptor
In this Q&A, Pascaline Lécorché, Head of Chemical Biology at Vect-Horus, outlines the potential of RNA interference therapeutics and the challenges of their use in vivo. There are several strategies to overcome these, and why peptide-based vectors targeting the LDL receptor are a promising approach.
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ArticleTreating immune-mediated diseases with nanoparticles
In this Q&A, we had the privilege of speaking to COUR Pharmaceuticals’ CEO John Puisis. He offers insights into how their innovative immune-modifying nanoparticle platform differs from traditional approaches for treating immune-mediated diseases.
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ArticleHarnessing natural killer cells to combat age-related diseases
In this Q&A, Celularity’s CEO and founder Dr Robert Hariri details the preclinical research that indicates that placenta-derived unmodified NK cells and genetically modified NK cells can target and selectively eliminate cells expressing stress ligands.
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ArticleLeveraging ADCs in precision oncology strategy
In this Q&A, senior leaders at Caris Life Sciences discuss how the company is advancing precision medicine by integrating ADCs into patient-specific cancer treatment plans, focusing on novel target discovery through comprehensive molecular profiling and clinico-genomic data.
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ArticleImproving treatment responses to solid tumours with trispecific TCEs
Following Zymeworks’ presentation at AACR 2024, in this Q&A, Dr Nina Weisser explains how the next generation trispecific T cell engager platform with integrated CD28 costimulation is engineered to tackle solid tumours.
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ArticleEnhancing gene therapy with Circio
In this Q&A, Erik Wiklund, CEO of Circio, explains the key findings of their circVec circular RNA platform technology, why they chose AAV-based gene therapy for AATD as the lead programme, and their plans for the future to enhance the potency and reduce the cost of current gold-standard gene therapy. ...
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ArticleUtilising engineered peptides for immunotherapy
In this Q&A, Dr DaeYong Lee discusses how a new method for building up natural immune response could lead to new immunotherapy drugs with safer toxicity profiles.
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ArticleBiomarker identification in the realm of rare diseases
In this Q&A, Debiopharm’s Principal Scientist Dr Luke Piggott defines the critical requirement of biomarkers for identifying rare diseases. He illuminates how AI-enhanced approaches are accelerating the drug discovery process, particularly regarding clinical trial enrolment, and the breakthroughs he hopes to see in the future.
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ArticleUncovering the genetic and cellular impacts of smoking
Epigenetic data assessing the effects of smoking on DNA methylation could serve as biomarkers of exposure effects.
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ArticleDeveloping the next generation of antibody drug conjugates
In this Q&A, Léo Marx, Medicinal Chemistry Project Manager at Debiopharm, details how the therapeutic window of ADCs can be impacted, how we can overcome the challenges associated with achieving site-specific bioconjugation, and other essential considerations for optimising ADC performance.
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ArticlePioneering the advancement of pre-targeted radioimmunotherapies
Although pre-targeting is still in its infancy, it has immense potential to increase state-of-the-art radioligand therapies. In this Q&A, PreTT reveals how their pre-targeted RLTs surpass traditional methods, transforming cancer treatment.
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ArticleIdentifying vascular disease associations
In this Q&A, Associate Professor Dr Mete Civelek shares insights from the University of Virginia’s exciting recent study identifying several potential therapeutic targets for accelerating translational research in cardiovascular disease treatment, with a focus on proteins associated with the extracellular matrix (ECM) secretion by smooth muscle cells (SMCs).
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HIF inhibition: a potential therapeutic approach for cancers
In this Q&A, Curve Therapeutic’s Chief Scientific Officer Professor Ali Tavassoli discusses how dual HIF inhibition could combat solid tumours.
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ArticleHow nucleolar stress accelerates aging in mice
Dr Fernández-Capetillo shares his insights from a recent study conducted at the CNIO, elucidating how the expression of (PR)arginine-rich peptides affects ribosomal protein translation and accumulation, and how accelerated aging can be alleviated.
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ArticleUsing AI to predict metastatic behaviour of NSCLC
Dr Richard Cote and Dr Ramaswamy Govindan of the Washington University School of Medicine elucidate how AI, particularly deep learning networks, could identify histopathologic features in non-small cell lung cancer, and impact the treatment approach for early-stage patients.