Fate and uptake of soluble and particulate antigens in the preparturient bovine mammary gland

Pregnant heifers were infused intramammarily with ovalbumin in one quarter and killed S. uberis in another quarter. The animals were slaughtered at time intervals after infusion, and tissues were collected from different parts of the gland and from the local lymph nodes. Ovalbumin and bacteria reached the lymph nodes as early as 1 and 3 h after infusion respectively. Ovalbumin was also present in blood 5-10 min after infusion and in non-infused quarters. Both ovalbumin and bacteria were phagocytosed by the epithelium of the mammary gland. However, bacteria were seen in the tissues in small numbers at all stages after infusion. Larger numbers were phagocytosed by neutrophils in the lumen of ducts, 18 h after infusion. Phagocytosis of both ovalbumin and bacteria was not present in the connective tissue of the gland. The results indicate increased permeability of the preparturient gland to soluble proteins, but limited uptake of bacteria. Furthermore, a mechanism of transfer of antigens among quarters has been suggested.     

Immune responses to intramammary infusion with soluble (ovalbumin) and particulate (S uberis) antigens in the preparturient bovine udder

Pregnant non-lactating cows were immunised by intramammary infusion with killed Streptococcus uberis into one quarter and ovalbumin into another, at one week (group 2) or one week and two weeks (group 1) before the expected date of parturition. A small IgG1 and IgG2 antibody response to ovalbumin was detected in the serum of these cows. There was also a small increase in IgG1 and IgA serum antibody activity to S uberis. In whey the response was restricted to IgA with activity to S uberis. The IgA antibody response to S uberis in group 1 was significantly greater in the quarter immunised with bacteria than that of the control quarters for up to two months after calving. In contrast, the serum IgA response was short or absent in a number of animals.     

Bactericidal activity of macrophages against Streptococcus uberis is different in mammary gland secretions of lactating and drying off cows

The aim of this study was to compare the ability of milk macrophages and macrophages from the mammary gland secretions during the mid-dry period for their interaction with the mastitis-causing Streptococcus uberis. We also aimed to determine if S. uberis induced the release of the cytokine tumour necrosis alpha (TNF-alpha) and the bactericidal moiety nitric oxide (NO) from milk macrophages of lactating cows and macrophages from the mammary gland secretions at the mid-dry period. Macrophages were isolated from the mammary gland secretions of cows during the mid-lactation or mid-dry period, and compared with blood monocytes for their interaction with the important mastitis-causing pathogen S. uberis. When infected in vitro with S. uberis, milk macrophages from lactating cows with S. uberis released modest amounts of the cytokine tumour necrosis factor alpha (TNF-alpha) (139 pg/ml) and the bactericidal moiety nitric oxide (NO) (3-4 microM of nitrite). Blood monocytes from lactating cows released significantly higher amounts of TNF-alpha (345 +/- 143 pg/ml) and NO (7 +/- 2 microM of nitrite) after interaction with S. uberis, compared to milk macrophages (P < 0.01 for both TNF-alpha and NO). Stimulation of blood monocytes with the cytokine interferon-gamma (IFN-gamma) enhanced significantly the release of NO and TNF-alpha, but IFN-gamma did not significantly enhance the production of NO and TNF-alpha by milk macrophages from lactating cows. Milk macrophages from all lactating cows failed to kill S. uberis efficiently, and this lack of killing was unaffected by prior treatment with gamma interferon (IFN-gamma) (P > 0.05). Rather, S. uberis multiplied significantly inside infected milk macrophages from lactating cows, with a two-fold increase in bacterial numbers at 2 h post-infection. Milk macrophages from lactating cows were able however, to kill a significant proportion (50-60%, P < 0.01) of phagocytosed Staphylococcus aureus. Blood monocytes from all cows were found to exert significant bactericidal activity against S. uberis. There were no significant differences in the bactericidal activity of milk macrophages obtained from lactating cows with low somatic cell counts (SCC; < 10(5) ml(-1)) compared with those with a mildly elevated SCC (> 10(5) ml(-1)) (P > 0.05). In contrast, mammary gland secretion macrophages isolated from the same cows in the mid-dry period killed a significant proportion of phagocytosed S. uberis (50-65% of ingested S. uberis killed, P < 0.01) although cytokine production in response to in vitro bacterial infection was low. We conclude that the bactericidal activity of mammary gland secretion macrophages against a virulent strain of S. uberis is low during the lactation period. In addition, our data indicate that S. uberis is not a strong inducer of NO and TNF-alpha in macrophages from the milk or mammary gland secretions of cows during the drying off period. Finally, IFN-gamma does not activate milk macrophages or macrophages from cows during the lactating period or mammary gland secretions during the drying off period.     

Characterization of Streptococcus uberis with special consideration of supposed pathogenicity factors]

Streptococcus uberis, as one of the principal causes of bovine streptococcal mastitis, has been characterized serologically and biochemically. Serological grouping of S. uberis revealed polysaccharide antigens of groups E, G, P and U. The biochemical properties of S. uberis, determined with the Strep-Zym identification system, differed clearly from those of S. agalactiae and S. dysgalactiae. Some cultures of S. uberis produced the enzymes hyaluronidase and neuraminidase. In addition S. uberis partly demonstrated CAMP-like synergistic hemolytic activities on sheep blood agar, reacted specifically with the lectins from Helix pomatia and Dolichos biflorus and produced bacteriocin-like inhibitors. This reactions, possibly of importance as virulence factors, as well as "DNA-fingerprinting" of S. uberis, might serve as individual markers of the respective cultures in epidemiological studies.     

Activation of small ruminant aortic endothelial cells after in vitro infection by caprine arthritis encephalitis virus

Small ruminants infected by the lentiviruses caprine arthritis-encephalitis virus (CAEV), originally isolated from a goat, or maedi-visna virus, originally from sheep, typically develop an organising lymphoid infiltration of affected tissues. This could reflect modulation of the migration pattern of lymphocytes in infected animals. Possible active contribution by vascular endothelial cells was investigated using an in vitro model. Low-passage cultured ovine aortic endothelium proved susceptible to productive infection by CAEV without significant cytotoxicity. Infected endothelial cells maintained expression of endothelial markers, increased MHC class I antigen expression and initiated expression of the adhesion molecule VCAM -1 and, at a late stage, MHC class II antigens. Infected endothelial cells showed a two-fold increase in binding capacity for sheep peripheral blood leucocytes over uninfected controls. Such events could contribute to the tissue distribution of lymphoid cells and local immune responses in lentiviral infections of small ruminants.     

Identification, isolation, and partial characterization of a novel Streptococcus uberis adhesion molecule (SUAM)

The ability to attach to the host cell surface has been considered an important virulence strategy in many bovine mammary gland pathogens, including Streptococcus uberis. Research conducted in our laboratory lead to the identification of an S. uberis adhesion molecule (SUAM) with affinity for bovine lactoferrin (LF) and delineation of its role in adherence of S. uberis to bovine mammary epithelial cells. Using a selected bacterial surface protein extraction protocol and affinity chromatography, a 112-kDa protein that had a similar molecular mass and the LF affinity as one of the identified S. uberis LBP described by Fang and Oliver in 1999 was found. To further characterize SUAM, the N-terminal amino acid sequence of this protein was elucidated. A protein query versus translated database TBLASTN search of the National Center for Biotechnology (NCBI), non-redundant database, nr, with the LBP N-terminal amino acid sequence showed no significant similarity with previous entries. Antibodies directed against SUAM and a 17 amino acid long N-terminal sequence (pep-SUAM) inhibited adherence to and internalization of S. uberis UT888 into bovine mammary epithelial cells. Data presented suggests that we have discovered a novel bacterial protein involved in the pathogenesis of this economically important mastitis pathogen.     

Molecular characterization of the antimicrobial resistance of Riemerella anatipestifer isolated from ducks

Streptococcus uberis is a major environmental mastitis-causing pathogen. The infections are predominantly subclinical and are frequently undetected and untreated for extended periods of time. More information about the pathogenesis of S. uberis mastitis would be useful. To our knowledge, no experimental studies into the mastitis pathogenesis caused by S. uberis have been described in lactating goats. The aim of this study was to reproduce an experimentally induced S. uberis subclinical mastitis in lactating goats aimed to evaluate the inflammatory response, dynamics of infection and the pathological findings within the first hours of intramammary inoculation with S. uberis. Six Saanen goats in mid-lactation were inoculated with 1.7 × 10(8)cfu of S. uberis. Bacterial growth peaked in milk from challenged right mammary halves (RMH) at 4h PI. Shedding of viable bacteria showed a marked decrease at 20 h PI. Mean somatic cell counts in milk from the RMH peaked at 20 h PI. Inoculation with S. uberis was followed by a decrease in the mean total number of leukocytes. Signs and systemic symptoms were not evoked by intramammary inoculation. S. uberis could be isolated in tissue from all RMH. Histological examination of specimens of the RMH and lymph nodes of the goats showed an increased inflammatory response throughout the experiment. The histological findings correlated with the immunohistochemical detection of S. uberis in RMH. In conclusion, the experimental inoculation of S. uberis in lactating goats is capable of eliciting an inflammatory response and causing pathological changes, resulting in a subclinical mastitis. This investigation shows that goat might to represent a valuable model for the study of the mastitis pathogenesis caused by S. uberis.     

The expression of carbonic anhydrase in canine mammary gland and mammary gland tumor

Carbonic anhydrase (CA), a metallo-enzyme containing zinc, broadly distributes in mammalian tissues and participates in physiological regulation such as respiration, acid-base balance, ion transport, bone resorption, as well as the development of tumor by the reversible hydration of carbon dioxide. However the expression of CA in the tissue of mammary gland tumor was not documented. In this study we examine the histolocalization and gene expression of CA in both normal canine mammary gland tissue and mammary gland tumor by histochemical examination, and RT-PCR. Four mRNA expression of CA isoenzymes, such as CA II, IV, VI and IX were found under RT-PCR analysis and different band patterns were found between normal canine mammary tissue and canine mammary gland tumor tissue. CA II, IV, VI and IX gene mRNA expression were found in the normal mammary gland tissue, indicating CA II, IV, VI and IX are likely to be the essential enzymes to maintain the normal physiological condition of canine mammary gland tissue cells. However the expression of CA IV was not found in the tissue of malignant mammary gland tumor that may become the marker for the prognostic recognition of canine mammary gland tumor.     

Dynamics of leukocytes and cytokines during experimentally induced Streptococcus uberis mastitis

Streptococcus uberis causes a significant proportion of clinical and subclinical intramammary infections (IMI) in lactating and non-lactating dairy cows. In spite of this, its pathogenesis is incompletely understood. A study was conducted to determine leukocyte and cytokine dynamics during experimentally induced S. uberis mastitis. Five Jersey and five Holstein cows were challenged via intramammary inoculation of S. uberis into two uninfected mammary glands. Sixteen of 20 challenged mammary glands developed clinical mastitis with peak clinical signs observed at 144 h. The number of S. uberis in milk increased (P<0.05) 48 h after challenge, in spite of an increase in milk somatic cells that began at 18 h (P<0.001) and remained elevated throughout the study. Increased tumor necrosis factor-alpha (TNF-alpha), interleukin-1beta (IL-1beta) and interleukin-8 (IL-8) in milk were detected 66 h after challenge (P<0.05). Peak TNF-alpha and IL-8 concentrations occurred 120 h after challenge and preceded peak clinical signs. Experimental S. uberis IMI induced local production of TNF-alpha, IL-1beta and IL-8, which may play a role in the pathogenesis of S. uberis mastitis. Other mediators may be involved in initial leukocyte recruitment to the mammary gland, since increases in milk somatic cells occurred earlier than cytokine production.     

Mastitis severity induced by two Streptococcus uberis strains is reflected by the mammary immune response in vitro

Streptococcus uberis is the most common environmental mastitis pathogen causing udder inflammations of different severities in dairy cows. The aim of the study was to investigate if the different clinical outcome of mastitis induced by different strains of S. uberis can be reflected in the mammary immune response. Mammary epithelial cells and somatic milk cells were treated with heat inactivated and living S. uberis of strain A and strain B in vitro. Strain A was repeatedly isolated from a chronically infected quarter during 8 months, and persisted in the quarter despite antibiotic treatment. Strain B caused an acute clinical mastitis and was not further isolated after a single antibiotic treatment. Treatment with Strain B induced a more pronounced increase of mRNA-expression of various immune factors (interleukin-8, interleukin-1beta, RANTES, and lactoferrin) in mammary epithelial cells than strain A. In contrast to mammary epithelial cells the response of removed somatic milk cells showed no differences between the stimulation with two S. uberis strains. Tumor necrosis factor-alpha mRNA expression was not differently induced by the two strains. In conclusion, the characteristics of different severities of mastitis that are induced by different S. uberis strains in vivo can also be reflected at the level of the immune response of the mammary gland in vitro.     

Pathogenesis of visna/maedi and caprine arthritis-encephalitis: new leads on the mechanism of restricted virus replication and persistent inflammation

Lentiviruses are unique retroviruses which cause diseases with long incubation periods and prolonged clinical courses. The prototype lentiviruses, visna/maedi of sheep and arthritis-encephalitis virus of goats (CAEV), infect cells of the monocyte-macrophage system and replicate at a restricted level in these cells. The virus life cycle is closely associated with maturational factors in the cells; monocytes support the early stages of the replication cycle which goes to completion only when the cells mature to macrophages. Virus replication in the monocyte-macrophage results in lesions characterized by mononuclear cell infiltration of the central nervous system (CNS), lungs, synovium and mammary gland and their draining lymph nodes. Co-cultivation of sheep or goat lymphocytes with macrophages infected with visna or CAE viruses results in production of a unique interferon (LV-IFN). LV-IFN is a non-glycosylated protein of 54,000 to 64,000 daltons and has biological properties which have several implications for pathogenesis. Firstly, it retards the rate of maturation of monocytes and thus indirectly slows the rate of virus replication. Second, it restricts the rate of virus replication in mature macrophages by preventing virus maturation. Third, it induces expression of class II (Ia) antigens of the major histocompatibility complex on cells of macrophage lineage. Thus, by curtailing virus replication and enhancing expression of MHC class II antigens, LV-IFN may contribute to the induction and augmentation of the host's lymphoproliferative response to the virus.     

Role of collagen in adherence of Streptococcus uberis to bovine mammary epithelial cells

We reported previously that pre-incubation of Streptococcus uberis with collagen induced expression of S. uberis surface proteins. In a subsequent study, we showed that incubation of S. uberis with extracellular matrix proteins, particularly collagen, increased adherence and internalization of S. uberis to mammary epithelial cells. In the present report, the potential mechanism by which S. uberis exploits the presence of collagen to enhance adherence to bovine mammary epithelial cells was evaluated. Adherence assays were conducted with S. uberis pre-treated with and without collagen and co-cultured in medium supplemented with or without collagen. Pre-incubation with collagen followed by co-culture in medium containing collagen up-regulated ligands that enhanced adherence of S. uberis to mammary epithelial cells. Collagen-up-regulated ligand(s) also increased adherence of S. uberis to mammary epithelial cells in the absence of collagen, but adherence was lower than when collagen was present during the adherence assay. Chloramphenicol was added to the culture medium to inhibit bacterial protein synthesis. Adherence decreased significantly in chloramphenicol-treated S. uberis pre-treated or co-cultured in the presence of collagen. These results suggest that S. uberis expresses ligands with affinity for collagen that are up-regulated by collagen. We hypothesize that these ligands increase adherence by using collagen as a bridge between the bacterium and host cell and/or by direct interaction with host cell receptor(s).     

The role of CD14 during resolution of experimentally induced Staphylococcus aureus and Streptococcus uberis mastitis

This study was undertaken to investigate the time course of surface expression of CD14 on neutrophils and macrophages and to determine their association with resolution of inflammatory responses during Staphylococcus aureus and Streptococcus uberis experimental mastitis. Infections of the mammary gland induce a local immune response characterized by an increase in the total counts of CD14+ neutrophils and CD14+ macrophages particularly. On the other hand, resolution is accompanied by an increase in relative counts of CD14+ neutrophils, CD14+ vacuolized macrophages and apoptotic neutrophils. Following the immune reaction of mammary gland against Gram-negative/positive bacteria is very similar. Between the apoptotic and CD14+ neutrophils a high correlation was measured during the whole experimental period (S. aureus: r=0.64; S. uberis: r=0.61; P<0.05). Using anti-CD14 monoclonal antibodies in vitro suggested the involving of the CD14 surface receptor in recognition of apoptotic neutrophils by macrophages.     

Interleukin-1β infusion in bovine mammary glands prior to challenge with <Emphasis Type="Italic">Streptococcus uberis</Emphasis> reduces bacterial growth but causes sterile mastitis

Dairy cows are especially vulnerable to intramammary infection by the bacterial pathogen Streptococcus uberis in the dry period. Use of immunotherapeutic agents at drying off could increase cellular defences in the gland and prevent establishment of new S. uberis infections. This study investigated the potential of infusing recombinant bovine interleukin-1 beta (rbIL-1beta) in the mammary glands as a prophylactic agent against subsequent intramammary challenge with S. uberis in the early dry period. Immediately after the last milking at commencement of the dry period, one cow from each of 10 monozygous twinsets was infused with 10 microg of rbIL-1beta in two quarters and the other twin was infused with the carrier agent, sterile phosphate buffered saline. Twenty-four hours later, the quarters were infused with 10(3) colony-forming units (CFU) of S. uberis. Bacteriology, somatic cell count (SCC), concentrations of specific cytokines and antibody responses were monitored in mammary gland secretions and sera for the next 21 days. Infusion of rbIL-1beta into mammary glands at commencement of the dry period was associated with less new S. uberis intramammary infections, as determined by the number of quarters with bacterial growth. However, high SCC in quarters following infusion of rbIL-1beta masked the full beneficial effect of this procedure.     

Histopathological findings,phenotyping of inflammatory cells,and expression of markers of nitritative injury in joint tissue samples from calves after vaccination and intraarticular challenge with Mycoplasma bovis strain 1067

Background

The pathogenesis of caseonecrotic lesions developing in lungs and joints of calves infected with Mycoplasma bovis is not clear and attempts to prevent M. bovis-induced disease by vaccines have been largely unsuccessful. In this investigation, joint samples from 4 calves, i.e. 2 vaccinated and 2 non-vaccinated, of a vaccination experiment with intraarticular challenge were examined. The aim was to characterize the histopathological findings, the phenotypes of inflammatory cells, the expression of class II major histocompatibility complex (MHC class II) molecules, and the expression of markers for nitritative stress, i.e. inducible nitric oxide synthase (iNOS) and nitrotyrosine (NT), in synovial membrane samples from these calves. Furthermore, the samples were examined for M. bovis antigens including variable surface protein (Vsp) antigens and M. bovis organisms by cultivation techniques.

Results

The inoculated joints of all 4 calves had caseonecrotic and inflammatory lesions. Necrotic foci were demarcated by phagocytic cells, i.e. macrophages and neutrophilic granulocytes, and by T and B lymphocytes. The presence of M. bovis antigens in necrotic tissue lesions was associated with expression of iNOS and NT by macrophages. Only single macrophages demarcating the necrotic foci were positive for MHC class II. Microbiological results revealed that M. bovis had spread to approximately 27% of the non-inoculated joints. Differences in extent or severity between the lesions in samples from vaccinated and non-vaccinated animals were not seen.

Conclusions

The results suggest that nitritative injury, as in pneumonic lung tissue of M. bovis-infected calves, is involved in the development of caseonecrotic joint lesions. Only single macrophages were positive for MHC class II indicating down-regulation of antigen-presenting mechanisms possibly caused by local production of iNOS and NO by infiltrating macrophages.     

Biochemical and serological properties of Streptococcus uberis.

The Strep-Zym identification system, a combination of 23 enzymatic tests, allowed a rapid biochemical characterization of Streptococcus uberis. The biochemical profiles of the S. uberis cultures clearly differed from those of S. agalactiae and S. dysgalactiae. Serological grouping of S. uberis revealed polysaccharide antigens of groups E, G, P and U. Some cultures of S. uberis demonstrated CAMP-like synergistic hemolytic activities on sheep blood agar and reacted specifically with the lectins of Helix pomatia and Dolichos biflorus. The occurrence of group polysaccharides, CAMP-like reactivities, and the lectin agglutination reactions were obviously not related to each other or to any of the biochemical properties. These reactions, possibly of importance as virulence factors, might serve as epidemiological markers.     

pGh9:ISS1 transpositional mutations in Streptococcus uberis UT888 causes reduced bacterial adherence to and internalization into bovine mammary epithelial cells

Streptococcus uberis is an important mastitis pathogen that affects dairy cows worldwide. In spite of the economic impact caused by the high prevalence of S. uberis intramammary infections (IMI) in many well-managed dairy herds, pathogenic strategies and associated virulence factors of S. uberis are not well understood. It has been shown that S. uberis attaches to and internalizes into mammary epithelial cells and can survive inside cells for extended periods of time. We hypothesize that early attachment to and internalization into mammary epithelial cells is a critical step for the establishment of intramammary infection. The aim of this study is to identify and characterize chromosomally encoded virulence factors of S. uberis that allow early bacterial attachment to and internalization into mammary epithelial cells. A common approach used to identify virulence factors is by generating random insertion mutants that are defective in adherence to and internalization into mammary epithelial cells using pGh9:ISS1 mutagenesis system. A random insertion mutant library of S. uberis strain UT888 was created using a thermo-sensitive plasmid pGh9:ISS1 carrying ISS1 insertion sequence. Integration of the insertion sequence into the chromosome of these mutant clones was confirmed by PCR and Southern blot. Southern blot analysis of mutant clones also showed that insertional integration was random. Of 1000 random chromosomal insertion mutants of S. uberis strain UT888 screened, 32 had significantly reduced ability to adhere to and internalize into mammary epithelial cells. Chromosomal mapping of insertion sequence integration sites in some of these defective mutants showed integration into penicillin binding protein 2A (pbp2A), sensor histidine kinase, tetR family regulatory protein, phosphoribosylaminoimidazole carboxylase catalytic subunit (purE), lactose phosphotransferase, phosphoribosylamine glycine ligase (purD), and other genes involved in metabolic activities. These proteins may have a significant role in early bacterial colonization of the mammary gland during infection.     

A sub-population of circulating porcine gammadelta T cells can act as professional antigen presenting cells

A sub-population of circulating porcine gammadelta T cells express cell surface antigens associated with antigen presenting cells (APCs), and are able to take up soluble antigen very effectively. Functional antigen presentation by gammadelta T cells to memory helper T cells was studied by inbred pig lymphocytes immunised with ovalbumin (OVA). After removing all conventional APCs from the peripheral blood of immunised pigs, the remaining lymphocytes still proliferated when stimulated with OVA. When gammadelta T cells were further depleted, OVA specific proliferation was abolished, but reconstitution with gammadelta T cells restored proliferation. The proliferation was blocked by monoclonal antibodies (mAb) against MHC class II or CD4, and by pre-treatment of gammadelta T cells with chloroquine. These results indicate that a sub-population of circulating porcine gammadelta T cells act as APCs and present antigen via MHC class II.     

Molecular cloning and tissue expression of chicken AdipoR1 and AdipoR2 complementary deoxyribonucleic acids

AdipoR1 and AdipoR2 belong to a novel class of transmembrane receptors that mediate the effects of adiponectin. We have cloned the chicken AdipoR1 and AdipoR2 complementary deoxyribonucleic acids (cDNA) and determined their expression in various tissues. We also investigated the effect of feed deprivation on the expression of AdipoR1 or AdipoR2 mRNA in the chicken diencephalon, liver, anterior pituitary gland, and adipose tissue. The chicken AdipoR1 and AdipoR2 cDNA sequences were 76-83% identical to the respective mammalian sequences. A hydrophobicity analysis of the deduced amino acid sequences of chicken AdipoR1/AdipoR2 revealed seven distinct hydrophobic regions representing seven transmembrane domains. By RT-PCR, we detected AdipoR1 and AdipoR2 mRNA in adipose tissue, liver, anterior pituitary gland, diencephalon, skeletal muscle, kidney, spleen, ovary, and blood. AdipoR1 or AdipoR2 mRNA expression in various tissues was quantified by real-time quantitative PCR, and AdipoR1 mRNA expression was the highest in skeletal muscle, adipose tissue and diencephalon, followed by kidney, ovary, liver, anterior pituitary gland, and spleen. AdipoR2 mRNA expression was the highest in adipose tissue followed by skeletal muscle, liver, ovary, diencephalon, anterior pituitary gland, kidney, and spleen. We also found that a 48 h feed deprivation significantly decreased AdipoR1 mRNA quantity in the chicken pituitary gland, while AdipoR2 mRNA quantity was significantly increased in adipose tissue (P<0.05). We conclude that the AdipoR1 and AdipoR2 genes are ubiquitously expressed in chicken tissues and that their expression is altered by feed deprivation in the anterior pituitary gland and adipose tissue.     

兔巴氏杆菌病的病理组织学观察

取确诊为巴氏杆菌病兔的心脏、肝脏和肾脏等,用10％福尔马林液固定,常规石蜡包埋切片,H．E染色,光学显微镜下观察。病理组织学变化为：心肌纤维坏死、肝细胞脂肪变性坏死、脾小体萎缩变形、肺泡发生变形、肾小管上皮细胞发生颗粒变性和淋巴结充血、出血、水肿等。