Not All SCID Pigs Are Created Equally: Two Independent Mutations in the Artemis Gene Cause SCID in Pigs.

Mutations in >30 genes are known to result in impairment of the adaptive immune system, causing a group of disorders collectively known as SCID. SCID disorders are split into groups based on their presence and/or functionality of B, T, and NK cells. Piglets from a line of Yorkshire pigs at Iowa State University were shown to be affected by T(-)B(-)NK(+) SCID, representing, to our knowledge, the first example of naturally occurring SCID in pigs. In this study, we present evidence for two spontaneous mutations as the molecular basis for this SCID phenotype. Flow cytometry analysis of thymocytes showed an increased frequency of immature T cells in SCID pigs. Fibroblasts from these pigs were more sensitive to ionizing radiation than non-SCID piglets, eliminating the RAG1 and RAG2 genes. Genetic and molecular analyses showed that two mutations were present in the Artemis gene, which in the homozygous or compound heterozygous state cause the immunodeficient phenotype. Rescue of SCID fibroblast radiosensitivity by human Artemis protein demonstrated that the identified Artemis mutations are the direct cause of this cellular phenotype. The work presented in the present study reveals two mutations in the Artemis gene that cause T(-)B(-)NK(+) SCID in pigs. The SCID pig can be an important biomedical model, but these mutations would be undesirable in commercial pig populations. The identified mutations and associated genetic tests can be used to address both of these issues.

Human xenografts are not rejected in a naturally occurring immunodeficient porcine line: a human tumor model in pigs.

Animal models for cancer therapy are invaluable for preclinical testing of potential cancer treatments; however, therapies tested in such models often fail to translate into clinical settings. Therefore, a better preclinical model for cancer treatment testing is needed. Here we demonstrate that an immunodeficient line of pigs can host and support the growth of xenografted human tumors and has the potential to be an effective animal model for cancer therapy. Wild-type and immunodeficient pigs were injected subcutaneously in the left ear with human melanoma cells (A375SM cells) and in the right ear with human pancreatic carcinoma cells (PANC-1). All immunodeficient pigs developed tumors that were verified by histology and immunohistochemistry. Nonaffected littermates did not develop tumors. Immunodeficient pigs, which do not reject xenografted human tumors, have the potential to become an extremely useful animal model for cancer therapy because of their similarity in size, anatomy, and physiology to humans.

Cryptosporidiosis in neonatal calves.

Cryptosporidiosis in calves is an ongoing problem, primarily because of the high prevalence and high morbidity associated with the infection. This article summarizes current knowledge of the host/parasite interactions associated with cryptosporidiosis. The infection process in intestinal mucosa, the pathophysiology of the disease process, and the immune responses initiated in the calf to control the infection are discussed. Methods for diagnosing C. parvum infection, treatments that have been tried, and management controls are also examined.

Detection of cellular immunity to rabies antigens in human vaccinees.

A nonradioactive multi-parameter flow cytometry assay was developed to identify antigen-specific lymphocytes in human subjects previously vaccinated against rabies virus and was subsequently compared to the standard tritiated thymidine method. A cell tracking dye, carboxyfluorescein succinimidyl ester, was used in combination with surface label for CD4 and CD8 cells in order to determine the response of lymphocytes to killed rabies virus in an antigen recall assay. The rabies virus-specific lymphocyte response was compared to the humoral immune response in each of ten vaccinated and five non-vaccinated subjects. Lymphocyte responses to rabies virus were observed in all ten vaccinated subjects; some noted as early as 3 days after stimulation while others were not until 7 days after stimulation. There was good agreement between the proliferation index of the CFSE assay and the simulation index of the [3H]thymidine assay (kappa statistic=0.73). An inverse relationship was detected between the level of rabies virus neutralizing antibody (RVNA) and the lymphocyte response to inactivated rabies virus in the vaccinated subjects. The association between cytokines production and level of humoral and cellular response was investigated in four representative subjects. Two vaccinated subjects with high proliferation indices and low RVNA titers produced Th1 type cytokines to rabies virus stimulation, whereas two vaccinated individuals with low proliferation indices and high RVNA titers responses did not produce these cytokines.

Bovine alveolar macrophage neurokinin-1 and response to substance P.

In this study bovine alveolar macrophage neurokinin-1 (NK-1) and the in vitro response to substance P (SP) exposure were investigated. Bovine alveolar macrophage membrane extracts separated by sodium dodecyl sulfate-polyacrylamide gel electrophoresis (SDS-PAGE) and immunoblotted using anti-NK-1 antiserum demonstrated the presence of an approximately 60kDa band. Phagocytosis of fluorescent bioparticles by SP-exposed macrophages was 39% greater than that of non-exposed macrophages (P=0.0089). Likewise, there was 28% greater TNF production by macrophages following SP exposure compared to non-exposed controls (P=0.116). These results suggest that bovine alveolar macrophages respond to SP at least in part by enhancing phagocytosis and TNF production.

Detection of antibodies to a recombinant Cryptosporidium parvum p23 in serum and feces from neonatal calves.

Passive transfer of maternal antibodies via colostrum is important to protect newborn ruminants against microbial pathogens. In this study, 10 sets of calf serum, a sample of the colostrum fed to the calf, and serial fecal samples through the first 6 days after birth were collected from arbitrarily selected newborn Holstein heifers. A recombinant Cryptosporidium parvum p23, termed rC7, was used to determine whether anti-C. parvum antibodies can be detected in clinically normal neonates. The results demonstrated that serum, the associated colostrum, and fecal samples contained anti-rC7 antibodies. IgM and IgG1 anti-rC7 tended to be present in highest titers. The presence of specific antibodies to C. parvum was confirmed using Western blots of purified sporozoite membranes probed with serum and colostral whey. Collectively, the results indicated that neonatal calves had antibodies to C. parvum as early as 1 day after birth and suggested that the antibodies were passively transferred.

Association of IL-10 expression by mucosal lymphocytes with increased expression of Cryptosporidium parvum epitopes in infected epithelium.

The objective of this study was to determine whether changes in the ileal intraepithelial lymphocyte (TEL) phenotype and function occurred prior to development of diarrhea in Cryptosporidium parvum-infected calves. Calves were orally inoculated with 10(8) oocysts and maintained in enteric pathogen-free conditions until their use in experiments. Age-matched uninfected calves were used for comparisons. Ileal IELs were isolated and phenotyped to determine whether changes in lymphocyte population dynamics had occurred by 3 days postinoculation (PI). Ex vivo reverse transcriptase-polymerase chain reaction of messenger ribonucleic acid (mRNA) from IELs from infected calves was compared with controls to determine whether changes in cytokine expression had occurred by 3 days PI. No significant changes in lymphocyte population dynamics were documented, however, IELs isolated from 4 out of 8 infected calves, but not from 8 out of 8 control calves, expressed mRNA for interleukin-10 (IL-10). IL-10 expression by IELs was associated with the expression of a significantly larger (P < 0.001) proportion (0.75) of monoclonal antibody-defined C. parvum epitopes within infected ileal epithelium, as compared with a much smaller proportion (0.30) of epitopes with IL-10 lymphocytes. The results suggest that a temporal association exists between the expression of IL-10 by ileal IELs and the expression of C. parvum antigens in infected calf epithelium prior to development of cryptosporidiosis.