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Contributor Comment:  
Bordetella bronchiseptica is a small gram-negative coccobacillus of the respiratory tract in numerous animal species. Along with other factors, it is the cause of nonprogressive atrophic rhinitis in pigs as well as bronchopneumonia and is considered the primary cause of infectious tracheobronchitis in dogs.(1) It is also considered a major cause of respiratory disease in guinea pigs.(2) Bordetella bronchiseptica is an occasional opportunistic respiratory pathogen causing suppurative bronchopneumonias in several other species including rabbits, rats, foals, cats, and sea otters.(1-3) In nonhuman primates, Bordetella bronchiseptica has been documented as a cause of pneumonia and upper respiratory infections in prosimians (bushbabies), new world primates (marmosets and squirrel monkeys), and old world primates (African green monkeys and rhesus macaques).(4-5) Nonhuman primates can be naturally infected with Bordetella pertussis and develop whooping cough-like disease also.(5) Bordetella is transmitted by aerosolization or fomites and the bacteria adhere to the ciliated epithelium of the upper respiratory tract. Interspecies transmission can occur. The bacteria evade the immune defenses via several virulence factors (hemolysin, lipooligosaccharide, and tracheal cytotoxin) and replicate among the cilia. Ciliostasis with decreased mucociliary clearance and host cell death occurs.(1) Bronchopneumonia typically occurs in animals with weakened pulmonary defenses due to age, stress, viruses or other infectious agents, or other predisposing factors.(5) Once the defenses are breached, the bacteria can enter the lung and the inflammatory process begins centered on the bronchioles, then spreads upward into the bronchi and downward into the alveoli. The inflammatory exudate collects in the airways and tends to spread centrifugally and exudate can be coughed up and aspirated into other lobules, continuing the process. The cytokines released from pulmonary injury cause rapid recruitment of neutrophils and alveolar macrophages and cause increased vascular permeability resulting in leakage of edema fluid, fibrin, and sometimes hemorrhage.(6)
Other ruleouts considered at necropsy for the bronchopneumonia in this case included Streptococcus pneumoniae or other Streptococcus spp, Klebsiella pneumoniae, Mycoplasma spp, Pasteurella spp, and viruses such as influenza, measles, and cytomegalovirus. An interesting finding in this animal was the hemorrhagic and fibrinosuppurative cholecystitis, which is typically associated with gram-negative agents like Salmonella or E. coli. It is possible the cholecystitis was caused by the Bordetella infection but since cultures were not taken of the gallbladder, this cannot be definitively proven.
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As mentioned by the contributor, Bordetella spp. have several important virulence factors. Adenylate cyclase toxin, known as hemolysin, is a member of the RTX (repeats in toxin) family of toxins and is secreted by the bacteria. The RTX domain forms ion-permeable pores in host cell membranes and allow the transfer of the adenylate cyclase domain. Increased cAMP production occurs after entry of the toxin into leukocytes, which greatly inhibits phagocytosis and the oxidative burst. Tracheal cytotoxin is secreted by the bacteria and stimulates host cells to secrete nitric oxide which induces ciliostasis and apoptosis of ciliated epithelial cells. Dermonecrotic toxin (DNT) is an intracellular toxin that is vasoconstrictive and cytotoxic and is released upon bacterial lysis; it shares structural and functional homology with cytotoxic necrotizing factor 1 (CNF1) of E. coli.
Filamentous Hemagglutinin (FHA), pertactin and fimbriae are adhesive proteins that allow attachment of the bacteria to ciliated epithelial cells. Lipooligosaccharide is a lipopolysaccharide with endotoxin activity found in the bacterial cell wall. The Bordetella virulence gene (Bvg) operon regulates the expression of most of these virulence factors(1,6).
Although Bordetella is usually a co-pathogen in pigs, cattle, dogs and cats, it is the primary agent in several important veterinary diseases. Bordetella bronchiseptica, as a primary agent, can cause severe pneumonia in guinea pigs(2). B. avium is the primary agent of turkey coryza. B. avium can also infect several species of fowl, psittacines, ratites, finches and domestic songbirds, and in cockatiels, it has been associated with lockjaw syndrome, which is a respiratory disease with temporomandibular rigidity(8). B. hinzii, a commensal organism in the upper respiratory tract of poultry and an opportunistic pathogen in immunocompromised humans, has been identified as the causative agent of rhinitis, tracheitis, and bronchopneumonia in a rabbit and a B6 mouse(7).
References:
1. Caswell JL, Williams KJ. Respiratory system. In: Maxie MG, ed. Jubb, Kennedy, and Palmers Pathology of Domestic Animals. 5th ed., Vol. 2. New York, NY: Elsevier; 2007:589-590, 632, 638-639, 650.
2. Percy DH, Barthold SW. Pathology of Laboratory Rodents and Rabbits. 3rd ed. Ames, IA: Blackwell Publishing; 2007:141-142, 226-228, 267-268.
3. Staveley CM, Register KB, Miller MA, et al. Molecular and antigenic characterization of Bordetella bronchiseptica isolated from a wild southern sea otter (Enhydra lutris nereis) with severe suppurative bronchopneumonia. J Vet Diagn Invest. 2003;15:570-574.
4. Gibson SV. Bacterial and mycotic diseases. In: Bennett BT, Abee CR, Henrickson R, ed. Nonhuman Primates in Biomedical Research Diseases. San Diego, CA: Academic Press; 1998:75-76.
5. Osborn KG, Lowenstine LJ. Respiratory diseases. In: Bennett BT, Abee CR, Henrickson R, ed. Nonhuman Primates in Biomedical Research Diseases. San Diego, CA: Academic Press; 1998:294-295.
6. L³pez A. Respiratory system, mediastinum, and pleurae. In: McGavin MD, Zachary JF, ed. Pathologic Basis of Veterinary Disease. 5th ed. St. Louis, MO: Elsevier; 2012:458-9, 472-3, 480, 499, 520-1, 524-5.
7. Hayashimoto N, Yasuda M, Goto K, Takakura A, Itoh T. Study of a Bordetella hinzii isolate from a laboratory mouse. Comp Med. 2008 Oct;58(5):440-6.
8. Charlton BR, et al. Avian Disease Manual. 6th edition. American Association of Avian Pathologists. 2006:71-3.