Corxel Pharmaceuticals Ltd. completed a $287 million series D round to advance its lead compound, an oral small-molecule GLP-1 receptor agonist, CX-11, for obese and overweight patients.
Corxel Pharmaceuticals Ltd. completed a $287 million series D round to advance its lead compound, an oral small-molecule GLP-1 receptor agonist, CX-11, for obese and overweight patients.
Interax Biotech Ltd. and Alveus Therapeutics Inc. have signed a strategic research collaboration and licensing agreement to develop a differentiated small-molecule candidate for metabolic disease. Designed to overcome the limitations of current obesity medications, the candidate is expected to deliver durable weight loss with superior tolerability.
Gene editing technologies are moving forward in preclinical development with innovative strategies designed to treat diseases at their root and even reverse them.
Gene editing technologies are moving forward in preclinical development with innovative strategies designed to treat diseases at their root and even reverse them. However, many approaches still struggle to reach target cells or tissues – either they fail to arrive, or their efficacy is low. In vivo therapies face numerous challenges, but despite these hurdles, 2025 has marked a year of remarkable progress.
Gene editing technologies are moving forward in preclinical development with innovative strategies designed to treat diseases at their root and even reverse them. However, many approaches still struggle to reach target cells or tissues – either they fail to arrive, or their efficacy is low. In vivo therapies face numerous challenges, but despite these hurdles, 2025 has marked a year of remarkable progress.
Zealand Pharma A/S and OTR Therapeutics (Shanghai) Co. Ltd. have signed a multi-program strategic collaboration and license agreement to discover and develop novel therapeutics for metabolic diseases.
In a deal worth $1.2 billion, Suzhou Sanegene Bio Inc. and Eli Lilly and Co. are partnering to advance RNAi candidates for metabolic diseases based on Sanegene's tissue selective delivery technology.
In a deal worth $1.2 billion, Suzhou Sanegene Bio Inc. and Eli Lilly and Co. are partnering to advance RNAi candidates for metabolic diseases based on Sanegene's tissue selective delivery technology.
Metabolic disorders such as argininosuccinic and glutaric aciduria, methylmalonic acidemia, homocystinuria or primary hyperoxaluria require specific diets to prevent the accumulation of substances that the body can’t process. Current treatments mainly focus on managing symptoms and metabolite levels, and do not always prevent the progressive deterioration caused by mutations associated with the condition. However, emerging gene therapies hold promise for transforming these diseases by targeting their underlying causes, as presented in the oral abstract session, “Gene and cell therapy for metabolic diseases” of the ongoing 28th Annual Meeting of the American Society of Gene & Cell Therapy (ASGCT) meeting in New Orleans.
