Infection With a Novel Rickettsiella Species in Emperor Scorpions (Pandinus imperator).
Sushan HanAnibal G ArmienJanet E HillChampika FernandoDan S BradwayElizabeth StringerAlisa L NewtonYanyun HuangPublished in: Veterinary pathology (2020)
Rickettsiella infection was diagnosed in 4 adult emperor scorpions (Pandinus imperator) from 2 different collections over a 3-year period. One case had a 2-day history of weakness, failure to lift the tail, or respond to stimulation, with rapid progression to death. The other 3 cases were found dead. There were no gross lesions, but histologically the hemolymphatic vasculature and sinuses, presumed hematopoietic organ, heart, midgut and midgut diverticula, nerves, and skeletal muscle were infiltrated with phagocytic and granular hemocytes with necrosis. Phagocytic hemocytes contained abundant intracellular microorganisms that were Fite's acid-fast-positive, Macchiavello-positive, variably gram-positive or gram-negative, and Grocott's methenamine silver-negative. By transmission electron microscopy, hemocytes contained numerous phagocytic vacuoles with small dense bacterial forms (mean 0.603 × 0.163 μm) interspersed with large bacterial forms (mean 1.265 × 0.505 μm) and few intermediary forms with electron-dense nucleoids and membrane-bound crystalline arrays (average 4.72 μm). Transmission electron microscopy findings were consistent with bacteria of the family Coxiellaceae. Based on sequencing the 16S ribosomal RNA gene, the identity was confirmed as Rickettsiella, and phylogenetic analysis of protein-coding genes gidA, rspA, and sucB genes suggested the emperor scorpion pathogen as a new species. This study identifies a novel Rickettsiella causing infection in emperor scorpions and characterizes the unique pathological findings of this disease. We suggest this organism be provisionally named Rickettsiella scorpionisepticum.
Keyphrases
- electron microscopy
- gram negative
- genome wide
- multidrug resistant
- skeletal muscle
- genome wide identification
- heart failure
- atrial fibrillation
- gold nanoparticles
- single cell
- aedes aegypti
- small molecule
- type diabetes
- candida albicans
- transcription factor
- bioinformatics analysis
- amino acid
- adipose tissue
- room temperature
- genetic diversity
- nucleic acid