Molecular cloning and analysis of Suncus murinus group IIA secretary phospholipase A2 expression.

The intestinal epithelial monolayer forms a mucosal barrier between the gut microbes and the host tissue. The mucosal barrier is composed of mucins and antimicrobial peptides and proteins (AMPs). Several animal studies have reported that Paneth cells, which occupy the base of intestinal crypts, play an important role in the intestinal innate immunity by producing AMPs, such as lysozyme, Reg3 lectins, α-defensins, and group IIA secretory phospholipase A2 (GIIA sPLA2). The house musk shrew (Suncus murinus) has only a few intestinal commensal bacteria and is reported to lack Paneth cells in the intestine. Although the expression of lysozyme was reported in the suncus intestine, the expression of other AMPs has not yet been reported. Therefore, the current study was focused on GIIA sPLA2 expression in Suncus murinus. GIIA sPLA2 mRNA was found to be most abundant in the spleen and also highly expressed in the intestine. Cells expressing GIIA sPLA2 mRNA were distributed not only in the crypt, but also in the villi. In addition, intragastric injection of lipopolysaccharide increased GIIA sPLA2 expression in the small intestine of suncus. These results suggest that suncus may host unique AMP-secreting cells in the intestine.

Leptospirosis in sugarcane plantation and fishing communities in Kagera northwestern Tanzania.

BACKGROUND: Leptospirosis is a bacterial zoonotic disease of worldwide importance, though relatively neglected in many African countries including sub Saharan Africa that is among areas with high burden of this disease. The disease is often mistaken for other febrile illnesses such as dengue, malaria, rickettsioses and enteric fever. Leptospirosis is an occupational disease likely to affect people working in environments prone to infestation with rodents which are the primary reservoir hosts of this disease. Some of the populations at risk include: sugarcane plantation workers, wetland farmers, fishermen and abattoir workers. In this study we investigated the prevalence of antibodies against Leptospira among sugarcane plantation and factory workers, fishing communities as well as among rodents and shrews in domestic and peridomestic environments within the study areas. METHODS: The study was conducted in Kagera region, northwestern Tanzania and it involved sugarcane plantation workers (cutters and weeders), sugar factory workers and the fishing community at Kagera Sugar Company in Missenyi district and Musira island in Lake Victoria, Kagera, respectively. Blood was collected from consenting human adults, and from rodents and shrews (insectivores) captured live using Sherman traps. Serological detection of leptospiral antibodies in blood serum was carried out by the microscopic agglutination test (MAT). RESULTS: A total of 455 participants were recruited from the sugarcane plantation (n = 401) and fishing community (n = 54) while 31 rodents and shrews were captured. The overall prevalence of antibodies against Leptospira in human was 15.8%. Sugarcane cutters had higher seroprevalence than other sugar factory workers. Prevalent antibodies against Leptospira serovars in humans were against serovars Lora (6.8%), Sokoine (5.3%), Pomona (2.4%), Hebdomadis (1.1%) and Kenya (0.2%). Detected leptospiral serovars in reservoir hosts were Sokoine (12.5%) and Grippotyphosa (4.2%). Serovar Sokoine was detected both in humans and small mammals. CONCLUSION: Leptospirosis is a public health threat affecting populations at risk, such as sugarcane plantation workers and fishing communities. Public awareness targeting risk occupational groups is much needed for mitigation of leptospirosis in the study areas and other vulnerable populations in Tanzania and elsewhere.

Identification of potential hosts and vectors of scrub typhus and tick-borne spotted fever group rickettsiae in eastern Taiwan.

Scrub typhus and tick-borne spotted fever group (SFG) rickettsioses are transmitted by chiggers (larval trombiculid mites) and hard ticks, respectively. We assessed exposure to these disease vectors by extensively sampling both chiggers and ticks and their small mammal hosts in eastern Taiwan during 2007 and 2008. The striped field mouse Apodemus agrarius Pallas (Rodentia: Muridae) was the most common of the small mammals (36.1% of 1393 captures) and presented the highest rate of infestation with both chiggers (47.8% of 110 760) and ticks (78.1% of 1431). Leptotrombidium imphalum Vercammen-Grandjean & Langston (Trombidiformes: Trombiculidae) and immature Rhipicephalus haemaphysaloides Supino (Ixodida: Ixodidae) were the most abundant chiggers (84.5%) and ticks (>99%) identified, respectively. Immunofluorescent antibody assay revealed high seropositive rates of rodents against Orientia tsutsugamushi Hyashi (Rickettsiales: Rickettsiaceae), the aetiological agent of scrub typhus (70.0% of 437 rodents), and tick-borne SFG rickettsiae (91.9% of 418 rodents). The current study represents a first step towards elucidating the potential hosts and vectors in the enzootic transmission of O. tsutsugamushi and tick-borne SFG rickettsiae in Taiwan. Further studies should focus on characterizing pathogens in L. imphalum and R. haemaphysaloides, as well as the proclivity of both vectors to humans. Uncovering the main hosts of adult ticks is also critical for the prevention of SFG rickettsial infections.

The distribution of T lymphocytes, B lymphocytes, and dendritic-like cells of the anal tonsil in the laboratory shrew, Suncus murinus.

We investigated the distribution of T lymphocytes, B lymphocytes, and S-100 protein-immunoreactive dendritic-like in the anal tonsil of the laboratory shrew, Suncus murinus. In adult animals, T lymphocytes were located mainly at the periphery of the anal tonsil, especially around small blood vessels. B lymphocytes were located in the central and subepithelial region of the anal tonsil, which includes primary lymphoid follicles, and in which there are small numbers of scattered T lymphocytes. B and T lymphocytes were distributed over 72.7 and 27.3% of the tonsillar area, respectively. However, their areas of distribution were not clearly distinguished. The areas containing B lymphocytes were enriched in S-100 protein antibody-immunoreactive cells, which exhibited a dendritic shape. These S-100-positive cells appeared to be identical to the follicular dendritic cells (FDC) seen in the follicles of lymphoid organs. These results suggest that the anal tonsils constitute one of the gut-associated lymphoid tissues (GALT), and that a function of the anal tonsil includes the capture of intruding antigens that would generate protective antibody responses.

The impact of chronic radioactive stress on the immuno-physiological condition of small mammals.

The mass of internal organs and cellularity index of thymus and spleen were measured in small mammals inhabiting territories with a low level of chronic irradiation caused by the Chernobyl accident. Comparing with uncontaminated territories from the same region, bank voles (Clethrionomys glareolus) demonstrated an increase in liver and thymus mass and cellularity index of thymus, while sub-adult shrews (Sorex araneus) at contaminated territories had larger body mass, heavier spleen, kidney, and liver. These changes reflect an increase of tension in physiological and immunological processes in the small mammal populations in response to chronic irradiation, which have a non-specific, stress-causing nature. Laboratory mice, exposed to a single dose of irradiation equal to the annual dose received by wild animals at contaminated territories (0.07 Gy), in contrast, showed decreased mass of kidney, spleen and thymus, and cellularity of thymus and spleen compared to the control group. This shows a direct and specific impact of a single dose of irradiation.

Pancreas of Aselli in some species of the shrews (Sorex araneusneomys fodiens) as an analogue of the bursa of Fabricius in birds.

No organ equivalent to the bursa of Fabricius in birds, which is responsible for the production of B cells, has been found in mammals thus far. It has been suggested that Peyer's patches and the appendix along with the bone marrow play this role. In this study, the gland of Aselli of shrews was examined, whose function has not yet been clarified. The results of the study of the gland of Aselli in common and water shrews suggest this gland to be the key lymphoid organ analogous to the bursa of Fabricius. However, unlike the bursa of Fabricius, the gland of Aselli seems to fulfil two functions. It not only produces B cells, but also is the site of their terminal differentiation into plasma cells.

Immunohistochemical studies on the distribution of lymphocytes in the peripheral and mucosal lymphoid tissues of laboratory musk shrews (Suncus murinus).

We developed a new monoclonal antibody (mAb), named 1E9, which recognizes the immunoglobulin (Ig) M-like molecule of the insectivore laboratory animal, the suncus. This mAb was developed in order to investigate the distribution of surface Ig (sIg)-bearing lymphocytes in the lymphoid tissues of this animal. Immunohistochemically, the distribution of 1E9+ lymphocytes in the follicles of peripheral lymphoid tissues showed homology with such distribution in rodents. However, the lymphocytes in the follicles of the mucosal lymphoid tissues were not recognized by the mAb. These data suggest that from a comparative immunological viewpoint, our newly developed 1E9 mAb is useful for the characterization of sIg+ lymphocytes in the peripheral and mucosal lymphoid tissues of the suncus.

Magnificent expression of asialo GM1 on thymus cells and spleen T cells of the musk shrew, Suncus murinus.

The expression of asialo GM1 (GA1) was observed on almost all thymocytes from young musk shrew, at the age of 4 weeks by flow cytometric analysis. In adult shrew aged 10 months, the ratio of GA1-negative thymocytes was increased. Among several anti-glycolipid antibodies used, anti-GM1 and anti-Forssman also reacted with the thymocytes. Protein fraction of the thymocytes was analyzed by SDS-PAGE followed by immunoblotting. Anti-GA1 and anti-GM1 showed two bands and one band, respectively, however, their mobilities were different from each other. Anti-Forssman did not stain any protein. The GA1-positive population in spleen T cell fraction was not detected in young shrew but most of the T cells were changed to GA1-positive cells in adult shrew. When mixed lymphocyte culture was performed, the GA1-negative spleen T cells in young shrew were changed to express GA1 marker on their cell surface by differentiation. Abbreviations used were as follows: GA1, Gal beta 1-3GalNAc beta 1-4Gal beta 1-4Glc-Cer; GM1, Gal beta 1-3GalNAc beta 1-4(NeuAc alpha 2-3)Gal beta 1-4Glc-Cer; Forssman, GalNAc alpha 1-3GalNAc beta 1-3Gal alpha 1-4Gal beta 1-4Glc-Cer.

Leptospiral antibodies in wild living animals from North Tyrol.

The authors examined serologically 623 wild living animals (22 species) from North Tyrol for the incidence of leptospirosis. Positive reactions (MAL) in the titre 1: 100 and more were found in 4.5% of the animals examined; the serotypes concerned were these: icterohaemorrhagiae, sorex-jalna, castellonis or arboreae, grippotyphosa, bratislava, pomona, sejroe, saxkoebing. Positive reactions were obtained with the sera of Sorex araneus, Erinaceus europaeus, Putorius putorius, Vulpes vulpes, Cervus elaphus, Capreolus capreolus, Rupicapra rupicapra, Apodemus sp., Clethrionomys glareolus. The serotypes forming natural foci of leptospirosis in North Tyrol are these: sorex-jalna, grippotyphosa, bratislava, saxkoebing and, apparently, jalna. Synanthropic foci are formed by icterohaemorrhagiae or copenhageni and sejroe.