Severe Combined Immunodeficiency Clinical Trial
Official title:
Ex Vivo Retroviral Gene Transfer For Treatment of X-Linked Severe Combined Immunodeficiency (XSCID)
This is a clinical trial of gene therapy for X-linked severe combined immunodeficiency (XSCID), a genetic disease caused by defects in a protein called the common gamma chain, which is normally on the surface of immune cells called lymphocytes. XSCID patients cannot make T lymphocytes, and their B lymphocytes fail to make essential antibodies for fighting infections. Without T and B lymphocytes patients develop fatal infections in infancy unless they are rescued by a bone marrow transplant from a healthy donor. However, even transplanted patients may achieve only partial immune recovery and still suffer from many infections, auto-immunity and/or and poor growth. A recent, successful trial in France used gene therapy instead of bone marrow transplantation for infants with XSCID. This experience indicates that gene therapy can provide clinical benefit to XSCID patients. We will enroll eight older XSCID patients (1.5-20 years-old), who have previously received at least one bone marrow transplant, but still have poor T and B lymphocyte function that compromises their quality of life. Before enrollment, these subjects will have had some of their own blood-forming stem cells harvested and frozen in a blood bank. These cells have a defective gene, but a correct copy of the gene will be inserted while the cells are grown in sterile conditions outside the patient's body. To do this, the cells will be unfrozen and exposed for four days in a row to growth factors and particles of a retrovirus we have constructed and tested called "GALV MFGS-gc." Retrovirus particles will attach to the patient cells and introduce a correct copy of the common gamma chain gene into cells capable of growing into all types of blood cells, including T and B lymphocytes. XSCID patients who are enrolled in the study will receive a single dose of their own cells that have been modified by the GALV MFGS-gc treatment and also will be given another drug called palifermin to help prevent side effects from the chemotherapy and possibly try to improve the development of the T cells. After this, the patients will be monitored to find out if the treatment is safe and to see if their immune function improves. Study endpoints are (1) efficient and safe clinical-scale transduction of HSC from post-BMT XSCID subjects; (2) administration of a nonmyeloablative conditioning regimen in older patients to improve engraftment; (3) administration of a transduced HSC to eight subjects; (4) administration of KGF to improve thymic function post transplant to improve T cell development; and (5) appropriate follow-up of the treated subjects to monitor vector sequence distribution, gc expression in hematopoietic lineages, and lymphoctye numbers and function as well as general health and immune status.
This is a Phase I/II clinical trial of ex vivo hematopoietic stem cell (HSC) gene therapy for
X-linked severe combined immunodeficiency (XSCID). XSCID results from defects in the IL2RG
gene encoding the common gamma chain (gc) shared by receptors for Interleukin 2 (IL-2), IL-4,
IL-7, IL-9, IL-15 and IL-21. XSCID patients generally lack T-lymphocytes and NK cells, and
their B-lymphocytes fail to make essential antibodies. XSCID is fatal in infancy without
immune reconstitution, such as by allogeneic bone marrow transplantation (BMT). However, many
transplanted patients achieve only partial immune reconstitution, and consequently have
recurrent infections, autoimmunity and/or poor growth. Recent successful retroviral gene
therapy instead of BMT for infants with XSCID indicates that ex vivo gene therapy can provide
clinical benefit to XSCID patients.
We will enroll eight older XSCID patients (1.5-20 years-old; greater than or equal to 12 kg
body weight), who have had attempted BMT, but who have persistent T-lymphocyte and
B-lymphocyte impairments that compromise their quality of life. Prior to enrollment, these
subjects will have had autologous CD34+ HSC mobilized by treatment with granulocyte colony
stimulating factor (G-CSF), collected from peripheral blood by apheresis, immune selected and
cryopreserved in sufficient numbers to achieve entry criteria (greater than or equal to 1.0 x
10(6) CD34+ HSC/kg body weight). HSC procurement will be conducted under a separate, approved
and active NIH protocol, 94-I-0073, 'Recruitment of peripheral blood hematopoietic
progenitors by granulocyte colony stimulating factor [G-CSF]'.
Autologous CD34+ HSC will be transduced ex vivo with the gibbon ape leukemia virus (GALV)
envelope-pseudotyped, replication-defective, murine onco-retrovirus vector, MFGS-gc that
encodes the common gamma chain. Transductions will occur in flexible gas-permeable plastic
containers using serum-free medium supplemented with 1% human serum albumin and five
recombinant growth factors (50 ng/mL Flt3-L, 50 ng/mL SCF, 50 ng/mL TPO, 25 ng/mL IL-6, and 5
ng/mL IL-3). Subjects who are older than the age of 3 will be given a conditioning regimen
consisting of Fludarabine and Busulfan then they will receive a single infusion of transduced
HSC. Prior to the chemotherapy, and following the infusion of the cells, the same patients
will also be given Keratinocyte growth factor (KGF), also known as palifermin. Subjects will
be monitored for safety and efficacy; the latter evidenced by new development of autologous
transduced lymphocytes with functional gc. Study endpoints are (1) efficient and safe
clinical-scale transduction of HSC from post-BMT XSCID subjects; (2) administration of a
nonmyeloablative conditioning regimen to improve engraftment; (3) administration of
transduced HSC to eight subjects; (4) administration of KGF to improve thymic function post
transplant to improve T cell development; and (5) appropriate follow up of treated subjects
to monitor vector sequence distribution, gc expression in hematopoietic lineages, and
lymphocyte numbers and function; as well as general health and immune status.
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