Identification and characterization of serogroup M Dichelobacter nodosus from sheep with virulent footrot.

As part of an outbreak-specific footrot vaccination field trial a total of 1282 footrot lesion samples were collected from 2 sheep flocks on King Island, Tasmania. Breeding rams were shared between the two flocks, suggesting a common source of infection. All samples were tested for Dichelobacter nodosus. A total of 1047 D. nodosus isolates were obtained in pure culture (490 from 670 lesion samples from flock 1, and 557 from 612 lesion samples from flock 2) were tested by agglutination and PCR tests for the 9 common Australian serogroups A to I. After the first rounds of a specific vaccination program, a significant proportion of the isolates of D. nodosus from these flocks were found to be negative in the serogrouping tests and the prevalence of the disease remained high in both. Those isolates were tested retrospectively against New Zealand and Nepal serogroup M antisera and found to be positive. Fimbrial gene (fimA) sequences of three isolates collected over three years were identical indicating that these strains belonged to one serogroup and were most closely related to New Zealand and Nepal serogroup M sequences. More than 40% of the D. nodosus isolates from these flocks belonged to serogroup M and were virulent in tests for protease activity. The next most prevalent serogroup was A (23%). This study reports the identification and characterization of serogroup M isolates of D. nodosus from Australia, and led to routine testing for serogroup M in flocks where specific vaccination will be applied for control, treatment and eradication of the virulent footrot.

Outbreak-specific monovalent/bivalent vaccination to control and eradicate virulent ovine footrot.

Footrot is a contagious disease of small ruminants which is caused by the bacterium Dichelobacter nodosus. In its virulent form there are severe economic losses and a very significant animal welfare issue. Sheep and goats can be vaccinated for treatment and prevention of the disease. There are 10 different serogroups of D. nodosus (A-I and M) and immunity is serogroup-specific. When all 10 serogroups are presented together in a vaccine, protection persists for only a few months due to "antigenic competition". Consequently we evaluated the use of sequential monovalent or bivalent vaccines to control/eliminate/eradicate virulent footrot in a longitudinal intervention study on 12 commercial farms in southeast Australia with flock sizes of approximately 1200-4200 sheep. Overall, virulent footrot was eradicated from 4 of the flocks, 2 of which had 2 serogroups, and the others 4 or 5 serogroups. Where there were only 1 or 2 serogroups (3 farms) the clinical response was rapid and dramatic; prevalence was reduced from 45 to 50% before vaccination to 0% (2 farms) or 0.4% (1 farm) after one round of vaccination. In the remaining 9 flocks there were more than 2 serogroups and successive bivalent vaccines were administered leading to eradication of virulent footrot on 2 farms over 4 years and control of the disease on all but 3 of the others. Of the latter farms, 1 discontinued, and 2 initially had poor response to vaccine due to misdiagnosis of serogroup 'M', which was previously unknown in Australia. Control was achieved after administration of a serogroup M vaccine. These results provide clear evidence for control, elimination and eradication of virulent footrot by outbreak-specific vaccination in Australia.

Participation of macrophages in atherosclerotic lesion morphology in LDLr-/- mice.

Lystbeige (beige) mice crossed with LDL receptor-deficient (LDLr-/-) mice had a distinct atherosclerotic lesion morphology that was not observed in LDLr-/- mice. This morphology is often associated with a stable plaque phenotype. We hypothesized that macrophage expression of the beige mutation accounted for this distinct morphology. Cultured bone marrow-derived macrophages from LDLr-/- and beige,LDLr-/- mice were compared for their ability to accumulate cholesterol, efflux cholesterol, migrate in response to chemotactic stimuli through Matrigel-coated membranes, and express matrix metalloproteinase 9 (MMP9). No differences in cholesterol metabolism were identified. Beige,LDLr-/- macrophage invasion in vitro appeared to be less than LDLr-/- macrophage invasion but did not achieve significance. Nevertheless, tumor necrosis factor-alpha-induced MMP9 expression, secretion, and enzymatic activity of beige,LDLr-/- macrophages were all significantly decreased compared with those of LDLr-/- macrophages (P < 0.05). For in vivo analyses of macrophage function, bone marrow transplantation (BMT) studies were performed. LDLr-/- mice and beige,LDLr-/- mice were irradiated and reconstituted with wild-type or beige bone marrow from mice expressing green fluorescent protein (GFP). Identification of GFP cells provided for direct identification of donor-derived cells within lesions. Only expression of the beige mutation in the BMT recipients altered the macrophage location and collagen content of the lesions. These results suggested that impaired macrophage function by itself did not account for the stable lesion morphology of beige,LDLr-/- double-mutant mice.

A selective somatostatin type-2 receptor agonist inhibits neointimal thickening and enhances endothelial cell growth and morphology following aortic balloon injury in the rabbit.

Somatostatin analogs have been shown to inhibit vascular smooth muscle cell (VSMC) proliferation and attenuate neointimal thickening following experimental balloon catheter injury. In this study, the effects of a selective agonist for the somatostatin receptor subtype 2, PRL-2486, on neointimal thickening and endothelial cell regrowth 2 weeks following balloon catheterization of male New Zealand White rabbits were determined. Rabbits treated 2 days prior to and 2 weeks after catheter injury with 10 microg/kg/day PRL-2486 (PRL-tx) had decreased I/M ratios (intimal area/medial area x 100; p < 0.05) but had no effect at lower (5 microg/kg/day) or higher (20 microg/kg/day) doses. PRL-tx had significantly decreased VSMC proliferation compared to untreated animals. PRL-tx increased endothelial regrowth by over 2-fold (p < 0.002) and improved endothelial cell morphology. Endothelial-dependent relaxation responses to acetylcholine were attenuated by catheter injury, and were not improved with PRL-tx. These data suggest that the PRL-2486-mediated inhibition of neointimal thickening exhibits a bell-shaped dose-response curve. This inhibition may be due in part to decreased VSMC proliferation, which may be a function of enhanced endothelial regrowth, but not the return of endothelium-dependent vascular function.

Inflammation in atherosclerosis: lesion formation in LDL receptor-deficient mice with perforin and Lyst(beige) mutations.

OBJECTIVE: Natural killer (NK) cells have been identified in human vascular pathologies. In this study, we identified NK cells in aortic root atherosclerotic lesions of low density lipoprotein (LDL) receptor-deficient (LDLr-/-) mice. To characterize the role of NK cell-mediated cytolysis in atherosclerosis, we generated C57Bl/6 double-mutant mice by crossing LDLr-/- mice with NK cell-defective Lyst(beige) mice (creating beige,LDLr-/- mice) and with perforin-deficient mice (creating Pfp-/-,LDLr-/- mice). METHODS AND RESULTS: Male mice (8 to 10 weeks old) were fed a high-fat diet to induce atherosclerosis. Compared with LDLr-/- mice, beige,LDLr-/- mice had impaired NK cell cytolytic activity and significantly increased atherosclerosis (P<0.05). Pfp-/-,LDLr-/- mice had impaired NK cell cytolytic activity, yet they had lesions that were similar to those of control mice. This suggested that NK cell cytolysis did not play a significant role in atherosclerosis and that the exacerbated atherosclerosis of the beige,LDLr-/- mouse was independent of impaired NK cell cytolytic activity. Therefore, we investigated the role of T and B lymphocytes in atherosclerosis of beige mice by crossing them with recombinase activator gene 1-deficient LDLr-/- mice (Rag1-/-,LDLr-/- mice), thus creating beige,Rag1-/-, LDLr-/- mice. As in the double-mutant study, beige,Rag1-/-,LDLr-/- mice had significantly increased lesions compared with Rag1-/-,LDLr-/- control mice. CONCLUSIONS: Therefore, the Lyst(beige) mutation in LDLr-/- mice has proatherogenic properties that are independent of NK cell-mediated cytolysis and lymphocyte-mediated acquired immunity.