Researchers at Ohio University have discovered what may be a new way to fight lung cancer that is resistant to other treatments. The study published in the International Journal of Molecular Science and led by Goll-Ohio Eminent Scholar and distinguished professor John J. Kopchick, Ph.D., and his graduate student Arshad Ahmad at the Heritage College of Osteopathic Medicine, found that blocking the growth hormone receptor may help make lung cancer treatments more effective.

Cells have to break down sugar to produce energy. In most organisms, this process of glycolysis takes place in the cytosol. This is not the case with trypanosomes. These possess specialized organelles called glycosomes where glycolysis takes place. “Because the parasites rely fundamentally on these organelles for energy production, any disruption of glycosome biogenesis is lethal to them,” says Erdmann.

Daily aspirin use does not offer a quick or reliable way to prevent bowel cancer in the general population and carries immediate risks of serious bleeding, a new Cochrane review finds.

Bowel cancer, also known as colorectal cancer, is one of the most common types of cancer worldwide. Prevention typically involves following a healthy lifestyle and periodically undergoing routine screening tests.

Scientists have developed an adaptable materials platform that can safely and efficiently deliver a wide range of genetic medicines, a breakthrough that could accelerate the development of next‑generation vaccines, cancer treatments, and gene‑silencing drugs.

Experts from the University of Nottingham’s School of Pharmacy have created a new drug delivery platform that uses modular building blocks that self‑assemble with Ribonucleic acid- RNA to form nanoscale delivery particles.

Researchers from Tokyo Metropolitan University have created a new molecule which carries DNA into biological cells, to treat or vaccinate against illnesses. Many existing options rely on molecules with a strong positive charge, which can cause harmful inflammation. The team overcame this by using a neutral molecule and a new method to bind DNA to it, making it possible to deliver DNA into cells.

Industrial yeasts are a powerhouse of protein production, used to manufacture vaccines, biopharmaceuticals, and other useful compounds. In a new study, MIT chemical engineers have harnessed artificial intelligence to optimize the development of new protein manufacturing processes, which could reduce the overall costs of developing and manufacturing these drugs.

New antibody-drug conjugates (ADCs) developed at Institute of Science Tokyo combine a CD4 mimic with neutralizing antibodies for enhanced suppression of human immunodeficiency virus (HIV) infection. By targeting the gp120 on the viral envelope via a two-step mechanism, the ADCs effectively block viral entry - offering seven times better efficacy than existing approaches.