The effect of hen-egg antibodies on Clostridium perfringens colonization in the gastrointestinal tract of broiler chickens.

We evaluated the ability of hen-egg antibodies (HEA) to reduce intestinal colonization by Clostridium perfringens in broiler chickens. Antibodies against C. perfringens or cholera toxin (negative control) were obtained from the eggs of laying hens hyperimmunized using a C. perfringens bacterin or cholera toxin. Eggs were collected, pooled, and egg antibodies were concentrated by polyethylene-glycol precipitation. An initial experiment was conducted to determine the in vivo activity of the administered antibody along the length of the intestine. Thereafter, two feeding trials were performed to assess the efficacy of feed amended with the egg antibodies in reducing the level of colonization of C. perfringens in challenged birds. Antibody activity declined from proximal to distal regions of the intestine but remained detectable in the cecum. In the first experiment there was no significant reduction in the number of C. perfringens in the birds fed the diet amended with the anti-C. perfringens egg antibody, compared to the birds that received the anti-cholera toxin egg antibody (n=10), at any of the sampling times. In the second experiment there was a significant decrease in C. perfringens intestinal populations 72 h after treatment (n=15) as assessed by culture-based enumeration, but there was no decrease as measured by quantitative PCR based on the C. perfringens phospholipase C gene. Intestinal-lesion scores were higher in the birds that received the anti-C. perfringens HEA. Our work suggests that administration of HEA did not reduce the level of C. perfringens intestinal colonization and conversely might exacerbate necrotic enteritis.

Cloning and analysis of Pycnoporus cinnabarinus cellobiose dehydrogenase.

We have cloned and sequenced a gene encoding cellobiose dehydrogenase (CDH) from Pycnoporus cinnabarinus (Pci). PCR primers that may recognize a homologous cdh were designed using regions of complete conservation of amino acid sequence within the known sequences of Trametes versicolor (Tv) and Phanerochaete chrysosporium (Pc) CDH. Upstream primers hybridized to regions encoding the heme domain, whereas downstream primers recognized highly conserved regions within the flavin domain. Eight different primer pairs yielded three PCR products close in size to the control amplification, which used cloned Tv cdh as template. The PCR products that were close to the control size were cloned, and one of these, a 1.8-kb product, was completely sequenced. The PCR product was highly homologous to both Tv and Pch cdh, and contained eight putative introns. The cloned product was used to isolate a full-length clone encoding CDH from a Pci genomic library. Pci cdh encoded a protein with 83% identity with Tv CDH and 74% identity with Pch CDH. Northern blot analysis revealed that Pci cdh was transcribed as a single mRNA species and was expressed in the presence of cellulose as the carbon source.

Cloning and sequencing of a gene encoding cellobiose dehydrogenase from Trametes versicolor.

Cellobiose dehydrogenase (CDH) is an enzyme produced under lignocellulose-degrading conditions by Trametes versicolor strain 52J (Tv) and several other wood-degrading fungi, including Phanerochaete chrysosporium (Pc). In order to understand better the nature and properties of this enzyme, we isolated a genomic clone of Tv cdh using heterologous probes derived from the sequence of Pc cdh. DNA sequence analysis revealed that Tv cdh consists of 3091 bp of coding sequence interrupted by 14 introns. Southern blotting showed that the gene was present in a single copy in the strain of Tv analyzed. Tv cdh was shown by Northern blot analysis to be expressed as a single transcript under cellulolytic conditions. RT-PCR of poly(A)+ RNA isolated under cellulolytic conditions was used to generate a near full-length cDNA copy of the cdh mRNA. The deduced protein encoded by Tv cdh consists of 768 amino acids (aa), including a predicted 19 aa signal peptide. The protein had 73% identity to the corresponding protein from Pc, which is the only other CDH-encoding gene that has been cloned. Based upon its deduced primary structure and alignment to similar sequences, Tv CDH shares a general structural organization with Pc CDH and other hemoflavoenzymes. Amino acid residues H-109 and M-61 in the N-terminal heme domain are hypothesized to function in heme binding; the C-terminal flavin domain contained a consensus sequence for flavin binding between residues 217-222. Although the protein is known to bind to cellulose, no obvious homology to bacterial or fungal cellulose binding domains was observed. However, a strong homology was observed to a region of Pc CDH that is hypothesized to be involved in cellulose binding.