December 20, 7:17 AMKitsap County Liberal ExaminerJoseph Aprile
There are a host of diseases that are a direct result of a mutation in a single gene. Examples of this kind of disease are many including sickle cell anemia, severe combined immunodeficiency disease (SCID) and many others. The world famous Nobel prize-winning chemist, Linus Pauling (1901-1994) coined the term Molecular Disease to refer to this type of illness.
In the past, this type of illness has been impervious to the possibility of a cure, since its origin resides in the very makeup of an individual’s heredity as expressed through the genes. Recent advances in molecular biology and gene therapy have demonstrated that this daunting limitation can be effectively breached. SCID is a particularly devastating and ultimately fatal disease in which the affected child has no defense against infections. Through the ground breaking work of Dr. Alessandro Aiuti, ten patients suffering from SCID are still alive. The mutated gene in this condition is the ADA gene. The laboratory of Dr. Aiuti from the San Raffaele Institute for Gene Therapy in Milan successfully used the following procedure: bone marrow cells from the patients involved were incubated with a specially engineered virus containing the normal ADA gene. These engineered cells were reintroduced into the patients. Positive results were seen almost immediately following treatment. A similar approach has been used in the treatment of a disease characterized by a congenital degeneration of the retina. In this study four of six patients had a notable improvement of vision.
The latest advance has been made with Adrenoleukodystophy (ALD), a disease linked to the X chromosome. This is a severe neurodegenerative disease that leads to destruction of myelin, the outer membrane of nerve cells, in the brain and severe nervous system dysfunction. This disease is caused by a mutation in the ABCD1 gene. The first successful clinical test using gene therapy for ALD has recently been reported by Dr. Nathalie Cartier and his colleagues from the University of Paris-Descartes in Paris, France. The approach used was to take hematopoietic stem cells (HCS) from two young male patients and incubate their cells with a virus that was engineered to carry the normal ABCD1 gene. These modified cells were then reintroduced to the patients. Eventually, blood cells with the normal gene were found distributed throughout each patient’s body. Within 14 to 16 months post treatment, cerebral demyelination was arrested and neurological and cognitive functions remained stable. The patients’ own cells were used in this procedure; this avoids any need for a donor and obviates any concern of possible rejection. This is an extraordinary result and has profound implications for the future of gene therapy in medicine.