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Gene therapies could revolutionize cardiovascular disease management

Gene therapies could revolutionize cardiovascular disease management offering a one-time treatment for conditions such as heart failure, says GlobalData

Gene therapies could revolutionize the management of chronic cardiovascular diseases (CVDs) such as heart failure, according to GlobalData. The leading data and analytics company notes that there are currently *87 CVD gene therapies currently in development, and they hold potential to vastly improve patients’ quality of life.

Fiona Chisholm, Pharma Analyst at GlobalData comments: “As the leading cause of death worldwide, CVD has substantial human and economic burden. Many CVD drugs cause side effects that can contribute to poor long-term adherence to treatment: a common example of which being a persistent cough induced by blood pressure-lowering angiotensin-converting enzyme (ACE) inhibitors.

“By altering the genetic material of patients’ cells, gene therapies could transform the treatment of highly medicated and costly chronic conditions such as heart failure to a one-time treatment – effectively eliminating the problem of poor adherence and significantly reducing health service costs.”

There are 65 sponsors active within the CVD gene therapy space, with highly active sponsors including Tenaya Therapeutics, Renova Therapeutics and LEXEO Therapeutics. For drug developers, the key areas of research with the highest number of gene therapies under development are heart failure (21 therapies), ischemia/stroke (18 therapies) and cardiomyopathy (18 therapies).


Chisholm continues: “The gene therapies in development for CVD employ a range of novel mechanisms to achieve therapeutic benefit. Some are designed to inactivate genes that contribute to CVD pathophysiology, while others aim to activate specific genes or to deliver functional copies of genes in which patients are defective.”

Cardiac RSK3 Inhibitors’ program ‘Gene Therapy to Inhibit MAKAPB for Congestive Heart Failure’, which is currently at the Discovery stage of development, silences the MAKAPΒ gene. MAKAPΒ plays an important role in the induction of signaling complexes critical for pathological cardiac remodeling in heart failure. Conversely, LEXEO Therapeutics’ LX-2022 is in preclinical development for TNNI3-associated hypertrophic cardiomyopathy, a condition caused by mutations in the TNNI3 gene, which leads to thickening and enlargement of the heart. LX-2022 aims to provide therapeutic benefit by delivering an exact copy of the TNNI3 gene via an adeno-associated vector.

Chisholm adds: “As with all gene therapies, the potential for severe or delayed adverse effects in CVD remains a major concern, and investment in the development of these therapies is a high-risk venture. Nonetheless, for a wide range of sponsors, the potential returns associated with CVD gene therapies makes this investment a worthwhile strategy.”

*Includes CVD gene therapies in development by pharma companies, government bodies and institutions from the Discovery stage to Phase III development.


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