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US Approves First Gene Therapies To Treat Sickle Cell Patients

Today marks a significant milestone as the U.S. Food and Drug Administration grants approval to two groundbreaking treatments—Casgevy and Lyfgenia.

These represent pioneering cell-based gene therapies specifically designed for individuals aged 12 and above grappling with sickle cell disease (SCD).

Notably, Casgevy stands out as the inaugural FDA-approved treatment leveraging a cutting-edge genome editing technology, marking a notable leap forward in the landscape of gene therapy.

Sickle cell disease, a cluster of hereditary blood disorders, impacts approximately 100,000 individuals in the United States, with a higher prevalence among African Americans.

While less common, it also affects Hispanic Americans. The crux of this condition lies in a mutation within hemoglobin, a vital protein in red blood cells responsible for delivering oxygen to the body’s tissues.

This mutation induces a distinctive crescent or “sickle” shape in red blood cells, impeding blood flow in vessels and curtailing oxygen distribution to the body’s tissues. The consequential vaso-occlusive events (VOEs) or vaso-occlusive crises (VOCs) manifest as severe pain and organ damage. The recurrence of these crises poses a grave threat, potentially resulting in life-threatening disabilities or premature mortality.

“Sickle cell disease is a rare, debilitating and life-threatening blood disorder with significant unmet need, and we are excited to advance the field especially for individuals whose lives have been severely disrupted by the disease by approving two cell-based gene therapies today,” said Nicole Verdun, M.D., director of the Office of Therapeutic Products within the FDA’s Center for Biologics Evaluation and Research. “Gene therapy holds the promise of delivering more targeted and effective treatments, especially for individuals with rare diseases where the current treatment options are limited.”

Casgevy, a cell-based gene therapy, is approved for the treatment of sickle cell disease in patients 12 years of age and older with recurrent vaso-occlusive crises. Casgevy is the first FDA-approved therapy utilizing CRISPR/Cas9, a type of genome editing technology. Patients’ hematopoietic (blood) stem cells are modified by genome editing using CRISPR/Cas9 technology.

CRISPR/Cas9 can be directed to cut DNA in targeted areas, enabling the ability to accurately edit (remove, add, or replace) DNA where it was cut. The modified blood stem cells are transplanted back into the patient where they engraft (attach and multiply) within the bone marrow and increase the production of fetal hemoglobin (HbF), a type of hemoglobin that facilitates oxygen delivery. In patients with sickle cell disease, increased levels of HbF prevent the sickling of red blood cells.

Lyfgenia is a cell-based gene therapy. Lyfgenia uses a lentiviral vector (gene delivery vehicle) for genetic modification and is approved for the treatment of patients 12 years of age and older with sickle cell disease and a history of vaso-occlusive events. With Lyfgenia, the patient’s blood stem cells are genetically modified to produce HbAT87Q, a gene-therapy derived hemoglobin that functions similarly to hemoglobin A, which is the normal adult hemoglobin produced in persons not affected by sickle cell disease. Red blood cells containing HbAT87Q have a lower risk of sickling and occluding blood flow. These modified stem cells are then delivered to the patient.

Both products are made from the patients’ own blood stem cells, which are modified, and are given back as a one-time, single-dose infusion as part of a hematopoietic (blood) stem cell transplant. Prior to treatment, a patients’ own stem cells are collected, and then the patient must undergo myeloablative conditioning (high-dose chemotherapy), a process that removes cells from the bone marrow so they can be replaced with the modified cells in Casgevy and Lyfgenia. Patients who received Casgevy or Lyfgenia will be followed in a long-term study to evaluate each product’s safety and effectiveness.

“These approvals represent an important medical advance with the use of innovative cell-based gene therapies to target potentially devastating diseases and improve public health,” said Peter Marks, M.D., Ph.D., director of the FDA’s Center for Biologics Evaluation and Research. “Today’s actions follow rigorous evaluations of the scientific and clinical data needed to support approval, reflecting the FDA’s commitment to facilitating development of safe and effective treatments for conditions with severe impacts on human” health.”

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