Non-sand fly transmission of a North American isolate of Leishmania infantum in experimentally infected BALB/c mice

Leishmania infantum, an etiologic agent of zoonotic visceral leishmaniasis, is endemic in the foxhound population in the United States and Canada. Leishmaniasis is usually transmitted by blood-feeding sand flies; however, epidemiological data do not support a significant role for sand flies in the maintenance of foxhound infections in North America, and an alternate mode of transmission may exist. The present study was conducted to determine if transplacental or direct transmission occurs in pregnant BALB/c mice experimentally infected with L. infantum isolated from a naturally infected foxhound from Virginia as well as to determine if the parasite was directly transmitted to the males used to breed the mice. Female BALB/c mice were intravenously inoculated with 1 x 10(6) promastigotes of the LIVT-1 strain of L. infantum. Mice were bred to uninfected male BALB/c mice 2 mo postinoculation. Pregnant mice were killed between days 13 and 18 of gestation. Pups and placentas were collected at necropsy, divided, and used for parasite culture and polymerase chain reaction (PCR) analyses. Culture and PCR analyses were performed on spleens from the male mice to determine the possibility of sexual transmission. Leishmania sp. DNA was detected in 4 of 88 pups and 3 of 16 placentas from LIVT-1-inoculated mice. One male mouse used to breed infected females was PCR positive. This work provides evidence for a low level of nonvector transmission of North American L. infantum in a mouse model.     

The sylvatic cycle of Neospora caninum: where do we go from here?

Bovine abortions due to Neospora caninum infection are a major cattle-production problem worldwide. The parasite is readily maintained in cattle populations by vertical transmission. The domestic dog excretes oocysts in its feces and, after sporulation, these oocysts are infectious to cattle. Current control measures are aimed at culling infected cows and limiting the access of cattle to infective oocysts. The recent revelations that coyotes (Canis latrans) can excrete N. caninum oocysts in their feces and that white-tailed deer (Odocoileus virginianus) are natural intermediate hosts of the parasite demonstrate the existence of a sylvatic cycle of neosporosis in North America. This complicates parasite-prevention programs but opens many new and exciting avenues of research. Similar canid-ruminant sylvatic cycles might exist in other countries and, if so, need to be investigated.     

Toxic effects of copper sulfate on the brains of term Hubbard broiler chicks: a stereological and biochemical study

Copper sulfate can cause different pathologies in different organ systems during development. We determined the effects of toxic levels of copper sulfate on brain development in term Hubbard broiler chicks using stereological and biochemical analyses. Hubbard broiler chicken eggs were divided into three groups: controls with no treatment, sham-treated animals and an experimental group. On day 1, 0.1 ml saline was injected into the air chambers of the sham and experimental groups. The experimental group received also 50 μg copper sulfate. At term (day 21), all chick brains were removed and their volumes were determined using the Cavalieri volume estimation. Parallel biochemical analyses were carried out for glutathione and malondialdehyde levels in the brain tissues as indicators of oxidative damage. With copper treatment, the mean brain volume (8079 μm³) was significantly decreased compared to both the control (10075 μm³) and sham (9547 μm³) groups. Copper treatment (143.8 nmol/g tissue) showed significantly decreased malondialdehyde levels compared to the control (293.6 nmol/g tissue) and sham groups (268.8 nmol/g tissue). Copper treatment (404.5 nmol/g tissue) showed significantly increased malondialdehyde levels compared to the control (158.6 nmol/g tissue) and sham (142.8 nmol/g tissue) groups. The morphological and biochemical parameters we measured demonstrated that in term Hubbard broiler chicks, toxic levels of copper sulfate cause developmental and oxidative brain damage.     

Survey of antibodies to Trypanosoma cruzi and Leishmania spp. in gray and red fox populations from North Carolina and Virginia

American trypanosomiasis and leishmaniasis are caused by related hemoflagellate parasites, Trypanosoma cruzi and Leishmania spp., which share several common host species. Both zoonotic protozoans are endemic in the United States. Canines, including domestic and wild canids, are reservoir hosts for human infections with T. cruzi and Leishmania spp. The present study examined the seroprevalence of T. cruzi and Leishmania spp. in wild canids from North Carolina and Virginia. Wild canine species tested in this work included 49 gray foxes (Urocyon cinereoargenteus) and 5 red foxes (Vulpes vulpes). Overall, sera samples from 54 foxes (North Carolina = 43; Virginia = 11) were tested by immunochromatographic strip assays (ICT). Antibodies to T. cruzi were found in 4 (9%) gray foxes from North Carolina and 2 (18%) gray foxes from Virginia. Antibodies to Leishmania spp. were detected in 1 (2%) gray fox from North Carolina. Our results indicate that wild canids are exposed more frequently to T. cruzi in North Carolina than Leishmania spp. and only T. cruzi in Virginia.     

The sugar binding activity of MR60, a mannose-specific shuttling lectin, requires a dimeric state

MR60 is an intracellular membrane protein which has been shown to act as a mannoside specific lectin and to be identical to ERGIC-53, a protein characteristic of the endoplasmic reticulum-Golgi apparatus- intermediate compartment, acting as a shuttle. According to its primary sequence, this MR60/ERGIC-53 protein contains a luminal domain including the carbohydrate recognition domain, a stem, a transmembrane segment and a cytosolic domain. The endogenous MR60/ERGIC-53 protein is spontaneously oligomeric, (dimers and hexamers). In this paper, we study the relationship between the oligomerization state and the sugar binding capacity by using recombinant proteins. The expression of the recombinant proteins was evidenced by immunocytochemistry and by immunoprecipitation followed by SDS-PAGE analysis. The full size recombinant protein binds mannosides and is oligomeric, up to the hexameric form. Two truncated proteins lacking the transmembrane and the cytosolic domains were prepared and characterized. A long one, containing the cysteine 466 close to the C-terminal end of the recombinant protein but lacking the cysteine 475, close to the C- terminal end of the native protein, does bind mannosides and forms dimers but no higher oligomeric forms. A shorter one, lacking both the cysteines 466 and 475, does not bind mannosides and does not form dimers or higher polymers. The two cysteines in the carbohydrate recognition domain (C190 and C230) are not involved in the stabilization of oligomers. In conclusion, this study shows that the luminal moiety of MR60/ERGIC-53 contains a device allowing both its oligomeric pattern and its sugar binding capability.      

Methane-fed microbial microcosms show differential community dynamics and pinpoint taxa involved in communal response

We report observations on the dynamics of bacterial communities in response to methane stimulus in laboratory microcosm incubations prepared with lake sediment samples. We first measured taxonomic compositions of long-term enrichment cultures and determined that, although dominated by Methylococcaceae types, these cultures also contained accompanying types belonging to a limited number of bacterial taxa, methylotrophs and non-methylotrophs. We then followed the short-term community dynamics, in two oxygen tension regimens (150 μM and 15 μM), observing rapid loss of species diversity. In all microcosms, a single type of Methylobacter represented the major methane-oxidizing partner. The accompanying members of the communities revealed different trajectories in response to different oxygen tensions, with Methylotenera species being the early responders to methane stimulus under both conditions. The communities in both conditions were convergent in terms of their assemblage, suggesting selection for specific taxa. Our results support prior observations from metagenomics on distribution of carbon from methane among diverse bacterial populations and further suggest that communities are likely responsible for methane cycling, rather than a single type of microbe.     

Deoxyribonucleic acid base composition and taxonomy of violet-pigmented cocci

The content of guanine and cytosine in DNA of the violet-pigmented micrococci designated asStaphylococcus flavocyaneus andMicrococcus flavocyaneus varies within the range of 70.8 – 72.0%. These species have similar deoxyribonucleic acid base compositions and do not differ physiologically and morphologically: they both produce yellow and violet pigments, hydrolyse gelatin and casein, reduce nitrates and do not form lipase. Therefore we consider them in accordance with Kocur and Martinec (1962, 1963) identical. They do not, however, seem to be identical withMicrococcus luteus (Schroeter, 1872) Cohn 1872 because the content of guanine and cytosine in DNA of the neotype culture of this species was found to be 66.3%.Micrococcus luteus differs from the violet pigmented micrococci also physiologically. It does not produce violet pigment, does not hydrolyse gelatin and casein and does not produce urease. For the violet pigmented strainMicrococcus cyaneus the use of the original designation is recommended:Micrococcus cyaneus (Schroeter) Cohn 1872, as it differs from the other violet cocci not only physiologically — it does not produce yellow pigment, oxidises mannitol, dulcitol and sorbitol, produces lipase and does not hydrolyse casein — but also in its DNA base composition.