Canine X-linked severe combined immunodeficiency (XSCID) is due to mutations in the common gamma chain (␥c) gene and is identical clinically and immunologically to human XSCID, making it a true homologue of the human disease. Bone marrow-transplanted (BMT) XSCID dogs not only engraft donor T cells and reconstitute normal T-cell function but, in contrast to the majority of transplanted human XSCID patients, also engraft donor B cells and reconstitute normal humoral immune function. Shortly after our initial report of successful BMT of XSCID dogs, it soon became evident that transplanted XSCID dogs developed late-onset severe chronic cutaneous infections containing a newly described canine papillomavirus. This is analogous to the late-onset cutaneous papillomavirus infection recently described for human XSCID patients following BMT. Of 24 transplanted XSCID dogs followed for at least 1 year post-BMT, 71% developed chronic canine papillomavirus infection. Six of the transplanted dogs that developed cutaneous papillomas were maintained for >3 1/2 years post-BMT for use as breeders. Four of these six dogs (67%) developed invasive squamous cell carcinoma (SCC), with three of the dogs (75%) eventually developing metastatic SCC, an extremely rare consequence of SCC in the dog. This finding raises the question of whether SCC will develop in transplanted human XSCID patients later in life. Canine XSCID therefore provides an ideal animal model with which to study the role of the ␥c-dependent signaling pathway in the response to papillomavirus infections and the progression of these viral infections to metastatic SCC.Severe combined immunodeficiency (SCID) is a heterogeneous group of diseases characterized by the inability to mount humoral and cell-mediated immune responses, and it is invariably fatal within the first 2 years of life (9, 46). X-linked SCID (XSCID) is the most common form of the disease, representing approximately 50% of all human SCID cases (9, 18). XSCID is caused by mutations in the common gamma (␥c) subunit of the receptors for interleukin-2 (IL-2), IL-4, IL-7, IL-9, IL-15, and IL-21 (reviewed in references 4 and 34). Thus, the XSCID phenotype is the complex result of multiple cytokine defects. The shared usage of the ␥c subunit by receptors for growth factors that are critical for normal B-, NK-, and T-cell development and function explains the profound immunologic abnormalities and clinical severity of the disease.Since the first successful HLA-identical bone marrow transplant in a boy with SCID in 1968 (19), bone marrow transplantation (BMT) has become the treatment of choice for all forms of SCID (10,18,22). SCID patients receiving a histocompatible (HLA-identical) BMT have Ͼ90% long-term survival rates (10,18,22). However, the majority of patients do not have a histocompatible donor. Haploidentical (half-matched) BMT with T-cell depletion to prevent fatal graft-versus-host disease has become the standard therapy for SCID patients who lack a histocompatible donor (10,18,22). Although T-cell depletion...
