Table of Contents
- What is ARTEGENE?
- How Does ARTEGENE Work?
- Medical Condition Treated
- Clinical Trial Objectives
- Eligibility Criteria
- Treatment Process
- Safety and Efficacy
What is ARTEGENE?
ARTEGENE is an innovative gene therapy drug designed to treat a specific type of Severe Combined Immunodeficiency (SCID). It is currently being studied in a Phase 1/2 clinical trial[1]. ARTEGENE is also known by its scientific name: autologous CD34+ haematopoietic stem and progenitor cells transduced with a lentiviral vector containing the human DCLRE1C gene.
How Does ARTEGENE Work?
ARTEGENE works by using the patient’s own stem cells, specifically CD34+ haematopoietic stem and progenitor cells. These cells are taken from the patient and then modified in a laboratory using a special virus called a lentivirus. This virus carries a healthy copy of the DCLRE1C gene, also known as the Artemis gene, into the cells[1].
Once the cells have been modified, they are given back to the patient through an intravenous injection. The modified cells can then produce healthy immune cells, potentially correcting the immune system deficiency[1].
Medical Condition Treated
ARTEGENE is being developed to treat Severe Combined Immunodeficiency (SCID) caused by biallelic mutations in the Artemis gene (DCLRE1C)[1]. SCID is a rare genetic disorder that severely affects the immune system, making patients extremely vulnerable to infections. The specific type of SCID treated by ARTEGENE is caused by mutations in the Artemis gene, which is crucial for the development of immune cells.
Clinical Trial Objectives
The main objective of the ARTEGENE clinical trial is to assess the initial safety and efficacy of the treatment. This includes evaluating the entire process from mobilization of stem cells to conditioning and transplantation of the modified cells[1].
Secondary objectives include:
- Studying how well the treatment clears ongoing infections present before transplantation[1]
- Evaluating the functional performance of the new lentiviral vector used in the therapy[1]
- Assessing the long-term safety and efficacy of ARTEGENE[1]
Eligibility Criteria
To be eligible for the ARTEGENE clinical trial, patients must meet certain criteria:
Inclusion Criteria:
- Age up to 47 months[1]
- Confirmed SCID with biallelic mutations in the Artemis (DCLRE1C) gene[1]
- No available HLA-identical donor or compatible unrelated donor within six weeks of diagnosis[1]
- Presence of life-threatening infections that require immediate treatment[1]
Exclusion Criteria:
- Unwillingness to return for follow-up during the first 2 years and long-term follow-up[1]
- HIV-1, HIV-2, or HTLV1 infections[1]
- Hypersensitivity to certain medications used in the treatment process[1]
- Inability to tolerate procedures necessary for the treatment[1]
Treatment Process
The ARTEGENE treatment process involves several steps:
- Stem Cell Collection: The patient’s own stem cells are collected through a process called apheresis or bone marrow harvest[1].
- Gene Modification: The collected stem cells are modified in a laboratory using a lentivirus carrying the healthy DCLRE1C gene[1].
- Conditioning: The patient receives medications to prepare their body for the transplant[1].
- Transplantation: The modified stem cells are given back to the patient through an intravenous injection[1].
- Follow-up: The patient is monitored closely for safety and efficacy of the treatment[1].
Safety and Efficacy
The primary focus of the ARTEGENE clinical trial is to assess the safety and efficacy of the treatment. Researchers will be monitoring for any adverse events using a standardized scale called CTCAE (Common Terminology Criteria for Adverse Events)[1].
The efficacy of the treatment will be evaluated by observing:
- The clearance of ongoing infections present before the transplantation[1]
- The kinetics of immune reconstitution, which means how quickly and effectively the immune system rebuilds itself[1]
It’s important to note that as ARTEGENE is still in clinical trials, its long-term safety and efficacy are yet to be fully determined. Patients and their families should discuss all potential risks and benefits with their healthcare providers.



