Establishment and characterization of in vivo human tumor models in the NOD/SCID/gamma(c)(null) mouse.

Immunodeficient mice are widely used for xenografts of human cells and tissue. The purpose of the present study was to investigate the characteristics of xenograft human tumor models using engraftment of various non-hematopoietic tumors in the NOD/SCID/gamma(c) (null) mouse. For tumor models, human solid tumor tissues were serially passaged three or more times to establish tissue lines. A total of 326 fresh tumor specimens, mainly gastrointestinal and female genital tissue, were engrafted with 54 established tissue lines. The types of tissue lines varied and included tumor tissue of both epithelial and mesenchymal origin. In some cases the original surgical specimen was replaced with large mononuclear cells. In the established tumor tissue lines, differentiation and tumor structure were similar to that of the original surgical specimen. The interstitium of the xenograft tissue in the tissue lines was relatively well preserved although slightly decreased and replaced by host tissue. These results indicate that human solid tumors can be successfully engrafted into the NOD/SCID/gamma(c) (null) mouse and that tissue lines with the characteristics of the original tumors can be established. Investigators in the field of tumor research will benefit from the availability of tissue lines that allow the establishment of more relevant in vivo human tissue models.

Major clinical and histopathological characteristics of canine X-linked muscular dystrophy in Japan, CXMDJ.

Canine X-linked muscular dystrophy (CXMD), which was found in a colony of golden retriever, is caused by a mutation in the dystrophin gene and it is a useful model of Duchenne muscular dystrophy (DMD). To investigate the pathogenesis and to develop therapy of DMD, we have established a beagle-based CXMD colony in Japan (CXMDJ) and examined their phenotypes. The mortality by 3 days of age in the third generation (G3) of CXMDJ dogs, 32.3%, was considerably higher than that in normal G3 littermates, 13.3%. Serum creatine kinase (CK) levels of G3 CXMDJ were significantly higher than that of normal male dogs with two peaks: at shortly after birth and around 2 months of age. Diaphragm muscle involvement occurred shortly after birth and was more severe than that of limb muscles. Stress during whelping might be associated with the neonatal death and respiratory muscle involvement. Gait disturbance was also noticed after 2 months of age. The involvement of limb and temporal muscles was observed from 2 months of age, which corresponded with the second peak of serum CK. Macroglossia, dysphagia, drooling and jaw joint contracture were overt from 4 months of age. We noticed severe macroglossia and hypertrophy of the sublingual muscles at the age of 12 months, and these were important features of this model, because dysphagia is one of major symptoms in older DMD patients. Overall, the phenotypes of CXMDJ were roughly identical to those of CXMD dogs in the literature. Beagle-based CXMDJ is smaller and easier to handle than golden retriever, therefore they are a useful model for DMD.

Effects of pair housing on diurnal rhythms of heart rate and heart rate variability in miniature swine.

This study investigated the effects of pair housing on diurnal rhythms of heart rate and autonomic nervous activity in miniature swine. For this purpose, six adult Göttingen miniature swine were initially housed individually in an animal cage. Then, two of each swine were housed in a large cage together for 3 weeks. After that swine were separated into individual cages again. During this experimental procedure, electrocardiogram (ECG) was recorded with a Holter ECG recorder. Autonomic nervous activity was evaluated by power spectral analysis of heart rate variability. Heart rate and autonomic nervous activity clearly showed a diurnal rhythm in miniature swine housed in individual cages. When two swine were housed together, heart rate was significantly increased throughout the day and diurnal rhythm disappeared. Although these changes gradually recovered to basal levels, these parameters had not completely returned to basal levels even after 2 weeks. Heart rate was still higher than the initial level just after swine were re-housed in their own individual cages. Heart rate and autonomic nervous activity returned to basal levels about 2 weeks after re-housing. Further, heart rate in some swine decreased below their initial levels. These results suggest that it takes miniature swine at least 2 weeks to adapt to different circumstances. Furthermore, the power spectral analysis of heart rate variability can be used as a useful method in a study for answering controversial issues related to stress response.

Standardized data and relationship between bone growth and bone metabolism in female Göttingen minipigs.

Minipigs have been studied as a model of osteoporosis. However, little information is available regarding their bone physiology. We established standardized bone data and investigated the relationship between bone growth and bone metabolism in female minipigs. Blood and urine samples were obtained from 53 female Göttingen minipigs, 3-76 months of age, for measurement of bone biomarkers (i.e., BAP, OC, NTX, and DPD). The lumbar vertebra and femur were excised to determine the growth plate condition, bone length, bone mineral content (BMC), and bone mineral density (BMD). High levels of bone biomarkers were observed during the initial period after birth, decreasing thereafter with age. Bone biomarkers were confirmed to be highly correlated with age (R(2) > 0.7). The growth plates of the lumbar vertebra and the femur began to close at 21 and 25 months of age, respectively, and closed completely at 42 months of age. Bone length increased rapidly before growth plate closure, and reached a peak at 21 and 28 months of age in the lumbar vertebra and the femur, respectively. The levels of BMC and BMD increased rapidly before growth plate closure, and continued to increase slowly until 76 months of age. A high negative correlation (-0.855 < r < -0.711, p<0.001) was confirmed between the bone biomarkers and the bone measurement data. These results indicate that the bone turnover velocity is consistent with the bone growth velocity in female Göttingen minipigs.

Age-related changes of bone mineral density and microarchitecture in miniature pigs.

Bone mineral density (BMD), distribution of its density and bone histomorphometric parameters were evaluated in lumbar vertebra of normally growing miniature pigs. The fourth lumbar vertebra (L4) of the Göttingen miniature pig were used in this cross-sectional study in vitro. The BMD of the miniature pig was similar to that of humans in tendency of gender differences and some growth patterns during puberty. In these regards this animal appears useful as a model for human bone study. However, the trabecular and cortical BMDs of lumbar spine were extremely high value (399.43 +/- 26.36 mg/cm(3) in female trabeculae; 973.06 +/- 69.55 mg/cm(3) in female cortical bone; 419.04 +/- 34.84 mg/cm(3) in male trabeculae; 1038.81 +/- 125.72 mg/cm(3) in male cortical bone in pigs 30 months or more). Furthermore, histomorphometric analysis yielded values that were remarkably different from those found in humans. From these results, it was revealed that miniature pig had a higher bone mass and denser trabecular network than human, indicating that its bone is probably stronger. Therefore, care should be taken in choosing the miniature pig as a bone study model.

Differential alloreactivity at SLA-DR and -DQ matching in two-way mixed lymphocyte culture.

The major histocompatibility complex (MHC) class II molecules are heterodimeric cell surface glycoproteins important for antigen presentation to CD4+ T lymphocytes. Class II molecules of the pig MHC, termed SLA, identified so far include DR and DQ. Thus far, functional differences between products of different loci in SLalpha class II have not been well characterized. For detailed research on this issue, SLalpha-DRbeta1 and -DQbeta typings were newly developed by restriction fragment length polymorphism (RFLP) of the reverse transcriptase-polymerase chain reaction (RT-PCR) products. Using this method, several RFLP types were chosen from 13 CSK miniature pigs, and alloreactivities in two-way mixed lymphocyte culture (MLC) derived from these pigs were examined by cell proliferation assay using flow cytometry. The responses in MLC varied according to the degree of phenotype difference. In MLC from individuals of the same RFLP type in both SLA-DRbeta1 and -DQbeta, the proliferative responses showed slight reaction indicating that they were not so stimulated by each other. On the other hand, for the RFLP type-mismatching combination, the responses were strong indicating that they recognized each others alloantigens. The reactivity of only the DQbeta mismatching combination was as strong as those of only the DRbeta1 mismatching combination. These data indicate the important role of the DQ as well as DR molecule on alloreactivity in MLC.