A Multiomic Analysis of Chicken Serum Revealed the Modulation of Host Factors Due to Campylobacter jejuni Colonization and In-Water Supplementation of Eugenol Nanoemulsion

Wagle, Basanta R.; Quach, Austin; Yeo, Seungjun; Assumpcao, Anna L. F. V.; Arsi, Komala; Donoghue, Annie; Jesudhasan, Palmy R.

doi:10.3390/ani13040559

Animals

2023

DOI: 10.3390/ani13040559

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A Multiomic Analysis of Chicken Serum Revealed the Modulation of Host Factors Due to Campylobacter jejuni Colonization and In-Water Supplementation of Eugenol Nanoemulsion

Basanta R. Wagle

Austin Quach

Seungjun Yeo

et al.

Abstract: Campylobacter jejuni is a foodborne pathogen that causes campylobacteriosis globally, affecting ~95 million people worldwide. Most C. jejuni infections involve consuming and/or handling improperly cooked poultry meat. To better understand chicken host factors modulated by Campylobacter colonization, we explored a novel LCMS-based multiomic technology using three experimental groups: (1) negative control, (2) positive control, and (3) eugenol nanoemulsion (EGNE) treatment (supplemented with 0.125% EGNE in the w… Show more

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Proteomics Analysis Suggests Mitochondria Disorders and Cell Death Lead to Spaghetti Meat Myopathy

Shakeri,

Choi,

Kong

et al. 2024

Meat and Muscle Biology

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Spaghetti meat (SM) is a myopathy that affects the structural integrity of pectoralis major muscles in broilers and accounts for decreased meat acceptability and significant economic losses for the industry. The causative mechanisms have not been as extensively investigated as other myopathies such as wooden breast. Proteomics analysis allows for the investigation alterations in muscle composition. The aim of this study was to investigate proteins related to mitochondria function in SM using proteomics analysis. Severe SM and normal pectoralis major were collected from a broiler processing plant. The analysis identified 1903 proteins. Results suggested that SM exhibited greater cellular stress and cell death as evidenced by increased N-myc downstream-regulated gene 1, plastin 3, ribosomal protein L10, and calnexin (FDR < 0.05 for all). Increased cell stress potentially impacted nonsense meditated decay pathway (eliminates mRNA containing premature translation termination codons). The SM myopathy downregulated several compounds related to mitochondria function and glucose metabolism pathways including basic leucine zipper and w2 domains 2, eukaryotic translation initiation factor 3 subunit B, pyruvate kinase L/R, thioredoxin-dependent peroxide reductase mitochondrial, enolase 3, creatine kinase mitochondrial 2, succinate-CoA ligase GDP/ADP-forming subunit alpha1, calcium voltage-gated channel auxiliary subunit alpha2delta 1, and complement 1q binding protein C (FDR < 0.05 for all), indicating a disruption in energy production and cell health. Current results suggested that SM impaired energy production and mitochondria function and elevated cell death. Although this study provides valuable information regarding possible mechanisms involved in the SM myopathy, further investigations are required to fully understand the mechanisms and their connections to other vital pathways.

show abstract

Proteomics Analysis Suggests Mitochondria Disorders and Cell Death Lead to Spaghetti Meat Myopathy

Shakeri,

Choi,

Kong

et al. 2024

Meat and Muscle Biology

View full text Add to dashboard Cite

show abstract

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A Multiomic Analysis of Chicken Serum Revealed the Modulation of Host Factors Due to Campylobacter jejuni Colonization and In-Water Supplementation of Eugenol Nanoemulsion

Cited by 1 publication

References 21 publications

Proteomics Analysis Suggests Mitochondria Disorders and Cell Death Lead to Spaghetti Meat Myopathy

Proteomics Analysis Suggests Mitochondria Disorders and Cell Death Lead to Spaghetti Meat Myopathy

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