Microbiomic comparison of the intestine of the earthworm Eisenia fetida fed ergovaline.

Tall fescue toxicosis and ergot alkaloids cost U.S. livestock producers approximately one billion dollars in annual livestock production loss annually. Ergovaline (EV) is the tall fescue alkaloid primarily responsible for clinical disease in livestock. Since native ruminal microorganisms have not been attributed to the detoxification of EV, finding detoxifying microbes from other environments is desirable. One possible source for potential microorganisms that can degrade EV is the anaerobic gut of the earthworm, Eisenia fetida. This study describes a comparative microbial analysis of earthworm digestive tracts receiving 10,000 ppb EV (E+ treatment) when compared with a control treatment with no detectable amounts of EV (E- treatment). An HPLC assay determined a 25% loss of EV from the E+ treatment was microbial in nature. A community microbiomic approach of constructing 16S-rRNA gene clone libraries was used to compare the microbes affected by the two treatments. RDPII tools such as Classifier and Libcompare were used in the analysis of 16S sequences. DOTUR analysis was used to examine the richness and diversity of the two microbial populations in these experiments. The results indicate there are few significant differences in the microbial community structure between the two microbiomes.

The clinical impact of coronavirus infection in patients with hematologic malignancies and hematopoietic stem cell transplant recipients.

BACKGROUND: Compared to other respiratory viruses, relatively little is known about the clinical impact of coronavirus (CoV) infection after hematopoietic stem cell transplant (HSCT) or in patients with hematologic malignancies. OBJECTIVES: To characterize the role of CoV in respiratory tract infections among HSCT and hematologic malignancy patients. STUDY DESIGN: We conducted a retrospective review of all cases of CoV infection documented by polymerase chain reaction, (PCR)-based testing on nasopharyngeal and bronchoalveolar lavage fluid samples between June 2010 and 2013. Cases of CoV infection occurring in HSCT and hematologic malignancy patients were identified and the clinical characteristics of these cases were compared to other respiratory viruses. RESULTS: CoV was identified in 2.6% (n=43) of all samples analyzed (n=1661) and in 6.8% of all samples testing positive for a respiratory virus (n=631). 33 of 38 (86.8%) of patients in whom CoV was identified were HSCT and hematologic malignancy patients. Among these patients, CoV was detected in 9.7% of unique infection episodes, with only rhinovirus/enterovirus (RhV/EnV) infection being more common. Group I CoV subtypes accounted for 76.3% of cases, and 57% of infections were diagnosed between December and March. CoV infection was associated with upper respiratory tract symptoms in most patients, similar to other respiratory viruses. Possible and proven lower respiratory tract disease was less common compared to other respiratory viruses except RhV/EnV. CONCLUSIONS: CoV is frequently detected in HSCT and hematologic malignancy patients in whom suspicion for a respiratory viral infection exists, but is less likely to progress to lower respiratory tract disease than most other respiratory viruses.

Molecular characterization of sheep ruminal enrichments that detoxify pyrrolizidine alkaloids by denaturing gradient gel electrophoresis and cloning.

An enrichment of strictly anaerobic bacteria from ovine rumen fluid, which has previously been named L4M2, is known to detoxify animal hepatotoxins from the pyrrolizidine alkaloid family. These toxins are present in the tansy ragwort plant (Senecio jacobaea). These plants have been described in livestock animals' range forages in regions of the world such as the Northwest United States and South Africa. The bacterial enrichment was characterized by molecular cloning techniques and by the molecular fingerprinting technique of denaturing gradient gel electrophoresis (DGGE). Phylogenetic analysis of the enrichment revealed that the consortium is composed of no more than five putative bacterial species which associated to the Anaerovibrio, Desulfovibrio, Megasphaera, Prevotella, and Synergistes generas. These are all known to exist in the upper gastrointestinal tract of ruminant animals. This work improved upon previous attempts to characterize the consortium by obtaining nearly full-length ribosomal 16S rDNA sequences through cloning. The DGGE results were directly compared to the cloning data by polymerase chain reaction (PCR) amplifying eight phylogenetically representative clones and analyzing them by DGGE. Direct DGGE analysis of the enrichment displayed greater 16S diversity than the clone library used in this study, suggesting that at least one of the organisms present in the enrichment comprises less than 1% of the total cell population. These data will be used to further refine the enrichment in hopes of future use as a probiotic, which could be administered to animals challenged by the presence of tansy ragwort in their forage.