Isolation and phenotypic and functional characterization of cells from Peyer's patches in the dog.

Cells were isolated from canine Peyer's patches (PPs) and their phenotype and capacity to secrete immunoglobulins in vitro were determined. Cells isolated from duodenal and jejunal PPs of adult dogs consisted of 91.4% lymphocytes and 1.6% macrophages with 55.4% mIg(+)-cells and 35.6% Thy-1(+)-cells. In vitro IgA secretion by pokeweed mitogen (PWM)-stimulated PP cells exceeded that by cells from other lymphoid tissues and was specifically increased by concanavalin A, suggesting a role for isotype-specific T-cells. Comparison of duodenal and jejunal (proximal) PPs and the ileal PP revealed that the ileal PP contained fewer T-cells, fewer mIgA(+)-cells and more mIgM(+)-cells. Cells from the ileal PP produced very little IgA and IgG, but abundant IgM in vitro. These data suggest that the proximal PPs of dogs are important in the generation of IgA B-cells, similar to PPs of rodents. The ileal PP of dogs may have a function in the early development of the B-cell system of the dog.     

Biologic characterization of canine melanoma cell lines

Eight canine melanoma cell lines were established from tissues from 6 dogs with spontaneous primary or metastatic melanomas. Cell lines were characterized for morphologic features and growth patterns on plastic, pigmentation, ultrastructure, cloning efficiency in soft agar, and tumorigenicity in nude mice. Biologic properties of cell lines were distinct and preserved during 40 to 120 passages in vitro. All cell lines were clonogenic and tumorigenic.     

Ultrastructure and alkaline phosphatase activity of the dome epithelium of canine Peyer's patches

The dome epithelium of Peyer's patches from different parts of the intestine of four dogs was examined by scanning and transmission electron-microscopy and by alkaline phosphatase histochemistry on glycol-methacrylate embedded sections. M cells were scattered among more numerous enterocytes in duodenal and jejunal Peyer's patches, but constituted the major cellular component of dome epithelia of the ileal Peyer's patches. Alkaline phosphatase histochemistry demonstrated low enzyme activity in the brush border of M cells, as compared to enterocytes, in the duodenum and jejunum, allowing identification of M cells at the light microscopic level. Alkaline phosphatase activity was too low in ileal enterocytes to permit visualization of M cells. The presence of intrafollicular invaginations of dome epithelium is a consistent finding in duodenal Peyer's patches of the dog and these invaginations were characterized by few M cells, many intraepithelial lymphocytes and strong alkaline phosphatase activity.     

Establishment and characterization of four canine melanoma cell lines

Four canine melanoma cell lines were established from the subcutaneous, oral gingival and mucosal melanoma tissues at the primary and metastatic sites. These cell lines were designated as CMeC-1, CMeC-2, KMeC and LMeC. The cells were spindles in shape, similar to that of primary tumor cells. The doubling times of these cells ranged from 34.1 +/- 5.61 to 57.9 +/- 3.28 hr and their chromosome number ranged from 46 to 80. When transplanted into nude mice, CMeC-1 and LMeC produced tumors, whereas CMeC-2 and KMeC did not. The morphology of the tissue formed by xenotransplantation of these cells was similar to their primary tumors.     

Establishment and biological characterization of canine histiocytic sarcoma cell lines

Seven novel cell lines from canine histiocytic sarcoma (HS), three of which were disseminated cutaneous HS and four of which were synovial HS, were established. All of the established cell lines had the same morphological (by light and electron microscopic findings), cytochemical (alpha-naphthyl butyrate esterase-positive), and immunohistochemical (vimentin- and lysozyme-positive, and cyto-keratin-negative) characteristics as the original HS tumor cells. All of the established cell lines injected into nude mice subcutaneously produced solid tumors. Because the established cell lines also showed phagocytic and processing activities, the HS tumor cells appear to originate from the mononuclear phagocytic system cells, despite their differences in locations or organs.     

Distribution of T and B lymphocytes in jejunal and ileocaecal Peyer's patches of lambs

Jejunal (JPPs) and ileocaecal (IPP) Peyer's patches in lambs were studied by employing the indirect and the avidin-biotin-peroxidase methods, using antibodies to sheep IgM and thymocytes. Thymocyte sera absorbed with IPP germinal centre cells showed specificity for T cells in the thymus, lymph nodes and Peyer's patches. Whereas JPPs had large interfollicular T cell areas, IPP mainly contained B cells, although small triangular T cell areas were found at the apex of the follicles. Some T cells were also found in the dome and corona region of JPPs and IPP. While germinal centres of JPPs had about 40 per cent of IgM-positive cells, IPP germinal centres contained about 80 per cent of such cells. Negative or weak IgM-positive cells were seen in the peripheral zone of IPP germinal centres, contrasting with surface IgM-positive cells in the central zone, and indicating a centripetal migration of maturing lymphocytes.     

Development of ileal Peyer's patches and follicle associated epithelium in bovine foetuses

The development of the ileal Peyer's patches (ilPP) and follicle associated epithelium (FAE) was examined in 30 bovine foetuses ranging from 73 to 271 days of gestation by light and transmission electron microscopic methods. The first primordial ilPP was encountered in the foetus at 164 days of gestation The ilPP were found to have been formed from the aggregation of lymph follicles in the foetus at 227 days of gestation whereas in the foetus at 271 days of gestation the follicular development was observed to have been completed. While the cells in the FAE in the foetus at 164 days of gestation and those older were cuboidal, those of the foetus at 271 days of gestation were columnar. As from the foetus at 227 days of gestation, however, the FAE was found to be composed of uniform lymphoepithelial cells with an increase in the number of intraepithelial leukocytes. In the early stages, whereas the apical surfaces of the FAE cells appeared shorter with microfolds, with advancing age the apical surfaces of the FAE cells were observed to be heterogeneous. Our results suggest that bovine ilPP and FAE cells are histologically and functionally mature before birth.     

Morphological and functional comparisons of Peyer's patches in different parts of the swine small intestine

Fifteen conventional 8-week-old pigs were used to compare the morphology and function of Peyer's patches (PP) in different parts of the small intestine with special emphasis on the dome epithelium (DE). The comparisons were done by morphological observation through light and electron microscopy, and by the ability of the DE complex to phagocytize horseradish peroxidase (HRP). Dome epithelium of the PP in the jejunum was more superficially located in the mucosa in comparison with the ileum. The DE's of the ileum were much smaller, with an area of 3.7 micron2/DE, than that of the jejunum (18.4 micron2/DE). The number of DE areas/5 cm2 in the ileum was more than in the jejunum. However, the total surface area of DE/5 cm2 of PP, was larger in the jejunum (180.5 micron2) than in the ileum (55.6 micron2). Brown discoloration of diaminobenzidine-hydrogenperoxide (DAB+H2O2)-treated PP specimens, after HRP inoculation, intensified with post-inoculation time from 20 s to 5 min. The brown pigment first appeared on the surface of microvilli and infiltrated into the dome. No morphological differences were observed between the jejunum and the ileum in 1 micron thick Epon-embedded specimens. Intramucosally, brown pigment was almost always found in DE areas. The pigmented areas were more numerous in the jejunum but the color intensity showed no obvious difference. By transmission electron microscopy, the electron dense materials (which were interpreted as the products of HRP and DAB+H2O2) were found between the microvilli of membraneous (M) cells, in the intercellular spaces of the DE, and in a form similar to intracytoplasmic vesicles in the cytoplasm of M-cell and DE complex lymphocytes. Our results confirmed that DE of PP had much stronger phagocytic activity than did the ordinary villous epithelium. This evidence indicates that the DE complex of PP in the swine intestine is immunologically important.     

Establishment and characterization of primary canine hepatocellular carcinoma cell lines producing alpha-fetoprotein

A primary cultured cell line named CHKS was established from a hepatocellular carcinoma (HCC) of a dog showing a high level of serum alpha-fetoprotein (AFP). CHKS secreted a 66 KDD AFP into the growth medium regardless of the presence or absence of fetal bovine serum (FBS). Cloning CHKS with limiting dilution produced 4 clones, CHKS-1, -2, -3, and -4, which secreted 826, 471, 70, and less than 10 ng/ml, respectively, of AFP into the culture medium. In culture, these cell lines were similar in morphology and proliferation pattern to epithelial cells and positive to periodic acid-Schiff (PAS) staining. The presence of mRNA for canine albumin was demonstrated by nested PCR. The doubling times of the clone cell lines were 21, 45, 36, and 35 h, saturation densities 34, 18, 22, and 24 x 10(4)/cm(2), and plating efficiencies 18, 45, 46, and 45%, respectively. Chromosome analysis of these cell lines showed near triploidy. These results show that CHKS and its clones have hepatic cell functions and are useful for carcinogenetic and clinical studies of canine HCC.     

Expression and functional analysis of chemokine receptor 7 in canine lymphoma cell lines

C-C chemokine receptor 7 (CCR7) contributes to cell homing to lymph nodes (LNs). Recent studies reported that CCR7 is also expressed in tumor cells, which correlates with LN metastasis in various cancers. However, the expression of CCR7 in tumor cells is unknown in dogs due to the lack of appropriate antibodies. In the present study, a fusion protein of C-C chemokine ligand 19 (CCL19) was employed as an alternative method to CCR7 antibodies. The fusion CCL19 protein specifically detected CCR7 expressed in canine lymphoma cell lines, which showed active chemotaxis to both canine and mouse ligands. The present study will help further research on the involvement of canine CCR7 in LN metastasis.     

Establishment and characterization of two novel patient-derived lines from canine high-grade glioma

High-grade glioma is an aggressive cancer that occurs naturally in pet dogs. Canine high-grade glioma (cHGG) is treated with radiation, chemotherapy or surgery, but has no curative treatment. Within the past eight years, there have been advances in our imaging and histopathology standards as well as genetic charactereization of cHGG. However, there are only three cHGG cell lines publicly available, all of which were derived from astrocytoma and established using methods involving expansion of tumour cells in vitro on plastic dishes. In order to provide more clinically relevant cell lines for studying cHGG in vitro, the goal of this study was to establish cHGG patient-derived lines, whereby cancer cells are expanded in vivo by injecting cells into immunocompromized laboratory mice. The cells are then harvested from mice and used for in vitro studies. This method is the standard in the human field and has been shown to minimize the acquisition of genetic alterations and gene expression changes from the original tumour. Through a multi-institutional collaboration, we describe our methods for establishing two novel cHGG patient-derived lines, Boo-HA and Mo-HO, from a high-grade astrocytoma and a high-grade oligodendroglioma, respectively. We compare our novel lines to G06-A, J3T-Bg, and SDT-3G (traditional cHGG cell lines) in terms of proliferation and sensitivity to radiation. We also perform whole genome sequencing and identify an NF1 truncating mutation in Mo-HO. We report the characterization and availability of these novel patient-derived lines for use by the veterinary community.     

Immunohistology of Peyer's patches in the dog.

Canine Peyer's patches were examined by light microscopy and immunohistochemistry for possible variations depending on the location within the small intestine and for similarities and dissimilarities to PPs from other species. The duodenal and jejunal PPs were characterized by relatively large domes and interfollicular areas. In contrast, the ileal PP had small domes and poorly developed interfollicular areas and very large follicles. T cells were found in the interfollicular area and corona and in lesser numbers in the dome and germinal centers. The ileal PP contained far fewer T cells than the proximal PPs. Domes of canine PPs contained some cytoplasmic IgA+ (cIgA+) and many cIgG+ cells. Peanut agglutinin (PNA) stained germinal center cells in a selective but not-uniform way and did not stain T cells.     

Lectin histochemistry of Peyer's patches in the porcine ileum

Lectin staining pattern in Peyer's patches of porcine ileum was studied using twenty one biotinylated-labeled lectins as cell markers which were visualized with avidin-biotin-peroxidase complex method (ABC). WGA appears to be a selective marker for tingible body macrophages in the porcine germinal centers. ConA may be a positive marker for the lymphoid tissues, whereas 9 lectins (DBA, SBA, SJA, s-WGA, PNA, ECL, UEA-I, PHA-E, and PHA-L) may be negative markers for the lymphoid tissues in all areas.     

Comparative functional characterization of canine IgG subclasses

To date, very little is known about the functional characteristics of the four published canine IgG subclasses. It is not clear how each subclass engages the immune system via complement-dependent cytotoxicity (CDC) or antibody-dependent cell-mediated cytotoxicity (ADCC), or how long each antibody may last in serum. Such information is critical for understanding canine immunology and for the discovery of canine therapeutic monoclonal antibodies. Through both in vitro and ex vivo experiments to evaluate canine Fc's for effector function, complement binding, FcRn binding, and ADCC, we are now able to categorize canine subclasses by function. The subclasses share functional properties with the four human IgG subclasses and are reported herein with their function-based human analog. Canine Fc fusions, canine chimeras, and caninized antibodies were characterized. Canine subclasses A and D appear effector-function negative while subclasses B and C bind canine Fc gamma receptors and are positive for ADCC. All canine subclasses bind the neonatal Fc receptor except subclass C. By understanding canine IgGs in this way, we can apply what is known of human immunology toward translational and veterinary medicine. Thus, this body of work lays the foundation for evaluating canine IgG subclasses for therapeutic antibody development and builds upon the fundamental scholarship of canine immunology.     

Characterization of spheres derived from canine mammary gland adenocarcinoma cell lines

There is increasing evidence for the presence of cancer stem cells in several solid tumors, and these cancer stem cells have a potential role in tumor initiation, aggression, and recurrence. The stem cell-like properties of spheres derived from canine mammary tumors remain largely elusive. We attempted to induce sphere formation using four cell lines of canine mammary adenocarcinoma, and characterized the spheres derived from a CHMp line in vitro and in vivo. The CHMp-derived spheres showed predominantly CD44⁺CD24⁻ population, higher expression of stem cell-related genes, such as CD133, Notch3 and MDR, and higher resistance to doxorubicin compared with the CHMp-derived adherent cells. Xenograft transplantations in nude mice demonstrated that only 1 × 10⁴ sphere cells were sufficient for tumor formation. Use of the sphere assay on these sphere-derived tumors showed that sphere-forming cells were present in the tumors, and were maintained in serial transplantation. We propose that spheres derived from canine mammary adenocarcinoma cell lines possess a potential characteristic of cancer stem cells. Spheres derived from canine mammary tumors could be a powerful tool with which to investigate novel therapeutic drugs and to elucidate the molecular and cellular mechanisms that underlie tumorigenesis.     

Establishment and characterization of dengue virus type 2 nonstructural protein 1 specific T cell lines

Immunity against dengue viruses (DENV) infection may include cellular immune responses which involve in the immunopathology of DENV infection hosts. This study was to establish short-term dengue virus type 2 (DENV2) nonstructural protein 1 (NS1) specific T cells from splenocytes from BALB/c mice immunized with DENV2 NS1 in vitro, which may be used to identify immunopathologic mechanism of dengue. Nine DENV2 NS1 specific T cell lines were successfully established by using limiting dilution methods and maintained for 20 weeks by re-stimulated with DENV2 NS1, recombinant mouse IL-2 and antigen presenting cell weekly. Phenotypically, these cells were mainly composed of CD3⁺CD4⁺ T cells. The culture supernatants of these cells contained large amounts of TNF-α and IFN-γ. Vascular tissue pathological change could be found in the mice adoptive transferred with DENV2 NS1 specific T cells. The results indicate that DENV2 NS1 specific T cells could be established and maintained with syngeneic T cell growth factors in vitro. Meanwhile, DENV2 NS1 specific T cells might contribute to the immunopathology of vascular leakage of dengue.     

Structure and function of Peyer's patches in the intestines of different animal species

Structure and function of Peyer's patches in man and animals are compared reviewing reports of recent years. Differences exist regarding number and distribution of Peyer's patches along the small intestine and regarding distribution of m-cells of dome epithelium. M-cells trigger the contact between infectious organisms and intestinal epithelium. Several different ways of interaction are possible: 1. Selective uptake of organisms by m-cells. 2. Paracellular transport of organisms between m-cells. 3. Multiplication of organisms above dome epithelial areas. 4. Restriction of interaction between organism and mucosa to absorptive enterocytes. 5. Specific damage of organisms to lymphatic areas of Peyer's patches.     

Differentiation induction of canine osteosarcoma cell lines by retinoids

The effect of two retinoids, all- trans and 9- cis retinoic acid, on the differentiation of three canine osteosarcoma cells (OOS, HOS, and POS) was examined using markers specifically expressed by phenotypic osteoblasts. Both retinoids induced morphologic differentiation in all the canine osteosarcoma cells. Retinoids enhanced cell flattening and spreading, as well as reduction in cell overlapping. Alkaline phosphatase (ALP) activity and ALP staining was enhanced in OOS, and HOS cells, but decreased in POS cells. These results may suggest that OOS and HOS cells have immature osteoblastic properties and POS cells have mature osteoblastic properties. Retinoids decreased osteocalcin production in all the osteosarcoma cells. They induced an increase in production of type I collagen in HOS and POS cells, but a decrease in OOS cells. These results indicate that retinoids induce differentiation of canine osteosarcoma cells, resulting in an altered expression of their malignant phenotype.