Kenneth W. Culver

T Lymphocyte-Directed Gene Therapy for ADA− SCID: Initial Trial Results After 4 Years

In 1990, a clinical trial was started using retroviral-mediated transfer of the adenosine deaminase (ADA) gene into the T cells of two children with severe combined immunodeficiency (ADA− SCID). The number of blood T cells normalized as did many cellular and humoral immune responses. Gene treatment ended after 2 years, but integrated vector and ADA gene expression in T cells persisted. Although many components remain to be perfected, it is concluded here that gene therapy can be a safe and effective addition to treatment for some patients with this severe immunodeficiency disease.

Gene transfer into humans--immunotherapy of patients with advanced melanoma, using tumor-infiltrating lymphocytes modified by retroviral gene transduction.

BACKGROUND AND METHODS Treatment with tumor-infiltrating lymphocytes (TIL) plus interleukin-2 can mediate the regression of metastatic melanoma in approximately half of patients. To optimize this treatment approach and define the in vivo distribution and survival of TIL, we used retroviral-mediated gene transduction to introduce the gene coding for resistance to neomycin into human TIL before their infusion into patients--thus using the new gene as a marker for the infused cells. RESULTS Five patients received the gene-modified TIL. All the patients tolerated the treatment well, and no side effects due to the gene transduction were noted. The presence and expression of the neomycin-resistance gene were demonstrated in TIL from all the patients with Southern blot analysis and enzymatic assay for the neomycin phosphotransferase coded by the bacterial gene. Cells from four of the five patients grew successfully in high concentrations of G418, a neomycin analogue otherwise toxic to eukaryotic cells. With polymerase-chain-reaction analysis, gene-modified cells were consistently found in the circulation of all five patients for three weeks and for as long as two months in two patients. Cells were recovered from tumor deposits as much as 64 days after cell administration. The procedure was safe according to all criteria, including the absence of infections virus in TIL and in the patients. CONCLUSIONS These studies demonstrate the feasibility and safety of using retroviral gene transduction for human gene therapy and have implications for the design of TIL with improved antitumor potency, as well as for the possible use of lymphocytes for the gene therapy of other diseases.

Gene Therapy for Immunodeficiency and Cancer

Gene transfer technology has enormous potential for the treatment of both inherited “genetic” disorders as well as diseases not ordinarily thought of as “genetic.” Since initial studies would be restricted to ex vivo gene transfer, our strategy for bringing this technology to the clinic has been to develop gene transfer protocols in the setting of clinical treatments which employ infusion or implantation of various types of cultured cells. Retroviral vectors are the current method of choice for clinical gene transfer because they provide relatively high efficiency gene transfer and usually give stable integration of the inserted genes. However, retroviruses only stably transfer genes into proliferating cells so that many potential target tissues (eg., brain, muscle) are not receptive to gene transfer with these vectors. This limitation has so far prevented the effective use of retroviral vectors for gene therapy of many of the disorders originally thought to be prime candidates for this treatment, disorders involving the totipotent bone marrow stem cell, since these cells are usually not cycling and thus are not receptive to this technique of gene transfer.