Balamuthia mandrillaris

Balamuthia mandrillaris is a free-living amoeba that is known to cause the deadly neurological condition known as granulomatous amoebic encephalitis (GAE).[1] B. mandrillaris is found in the soil and water and was first discovered in 1986 in the brain of a mandrill that died in the San Diego Wild Animal Park. B. mandrillaris can infect the body through skin wounds or by inhaling the dust containing Balamuthia.[2] Balamuthia has been isolated in nature.[3][4] It is believed to be distributed throughout the temperate regions of the world. This is supported somewhat by the presence of antibodies to Balamuthia present in healthy individuals. The genus name Balamuthia was given by Govinda Visvesvara (b. September 28, 1931), in honor of his late mentor, the renowned parasitologist William Balamuth (19141981) for his contributions to the studies of parasitic and free-living amoebae. It was in 1993 when Visvesvara isolated and studied the pathogen for the first time.[5]

Balamuthia mandrillaris
Scientific classification
Domain:
Eukaryota
(unranked):
(unranked):
Order:
Family:
Balamuthiidae
Genus:
Balamuthia

Visvesvara et al., 1993
Species:
B. mandrillaris
Binomial name
Balamuthia mandrillaris
Visvesvara et al., 1993

Morphology

B. mandrillaris is a free-living, heterotrophic amoeba, consisting of a standard complement of organelles surrounded by a three-layered cell wall (thought to be made of cellulose), and with an abnormally large cell nucleus. On average, a Balamuthia trophozoite is about 30 to 120 μm in diameter. The cysts fall around this range, as well.[6]

Life cycle

Balamuthia's lifecycle, like the Acanthamoeba, consists of a cystic stage and a non-flagellated trophozoite stage, both of which are infectious, and both of which can be identified as inclusions in the brain tissue on microscopic examination of brain biopsies performed on infected individuals. The trophozoite is pleomorphic and uninucleated, but binucleated forms are occasionally seen. Cysts are also uninucleated, possessing three walls: an outer thin irregular ectocyst, an inner thick endocyst, and a middle amorphous fibrillar mesocyst.[7]

Pathology

B. mandrillaris is larger than human leukocytes, thus making phagocytosis impossible. Instead, the immune system attempts to contain them at the portal of entry by mounting a type IV hypersensitivity reaction.[8] They may enter the body through the lower respiratory tract or through open wounds. Upon introduction, the amoeba may form a skin lesion, or may migrate to the brain, causing a condition known as granulomatous amoebic encephalitis,[9] (GAE), which is usually fatal. This granulomatous feature is mostly seen in immunocompetent patients; immunocompromised individuals exhibit a "perivascular cuffing".[10] Balamuthia-induced GAE can cause focal paralysis, seizures, and brainstem symptoms such as facial paralysis, difficulty swallowing, and double vision.

Balamuthia may also cause a variety of non-neurological symptoms, including skin lesions, which can progress to GAE. Patients experiencing this particular syndrome may report a skin lesion (often similar to those caused by methicillin-resistant Staphylococcus aureus), which does not respond well to topical antibiotics. The lesion is usually localised and very slow to heal, or fails to heal altogether. In some presentations, the infection may be mistaken for certain forms of skin cancer or leishmaniasis. Balamuthia lesions on the face often cause swelling.

Culturing and identification

Balamuthia is most easily identifiable in a brain biopsy performed on an individual suffering from GAE. The amoeba cannot be cultured on an agar plate coated with E. coli because unlike Naegleria or Acanthamoeba - Balamuthia mandrillaris does not feed on bacteria (at least in laboratory conditions). Instead, Balamuthia must be cultured on primate liver or human brain microvascular endothelial cells (the cells that constitute the blood–brain barrier).[11]

Vero cells have been suggested as a possible cheaper and faster alternative to culture the organism.[12]

Treatment

Balamuthia infection has had successful treatments. Two individuals, a 5-year-old girl and a 64-year-old man, developed GAE. After diagnosis, they were treated with flucytosine, pentamidine, fluconazole, sulfadiazine, a macrolide antibiotic and trifluoperazine. Both patients recovered.[13] In 2018, an unsuccessful attempt at treatment of a Balamuthia infection after nasal lavage with untreated tap water was reported.[14]

Nitroxoline has shown interesting properties in vitro and might be a possible treatment for this infection.[15]

Organ transplantation

According to a MMWR report published in September 2010, two confirmed cases of Balamuthia transmission occurred through organ transplantation in December 2009 in Mississippi. Two kidney recipients, a 31-year-old woman and a 27-year-old man, suffered from post-transplant encephalitis due to Balamuthia. The woman died in February 2010 and the man survived with partial paralysis of right arm. The CDC was notified by a physician on December 14, 2009, about possible transplant transmission in these two patients. Histopathologic testing of donor and recipient tissues confirmed the transmission. Two other patients who received heart and liver transplants from the same donor, but in different hospitals, were placed on pre-emptive therapy and remain unaffected. A second cluster of transplant-transmitted Balamuthia in Arizona was reported in the same weekly report. Four recipients were identified, two from Arizona (liver and kidney-pancreas), one from California (kidney), and another from Utah (heart). Recipients from Arizona—a 56-year-old male and a 24-year-old male—both succumbed to GAE within a span of 40 days from transplantation. The other two were placed on pre-emptive therapy after the first two were reported and remain unaffected.

References

  1. Sarica, F. B.; Tufan, K.; Cekinmez, M.; Erdoğan, B.; Altinörs, M. N. (2009). "A rare but fatal case of granulomatous amebic encephalitis with brain abscess: the first case reported from Turkey". Turkish Neurosurgery. 19 (3): 256–259. PMID 19621290.
  2. "Balamuthia mandrillaris ameba infection". Centers for Disease Control and Prevention. Retrieved 14 June 2014.
  3. Frederick L. Schuster, Thelma H. Dunnebacke, Gregory C. Booton, Shigeo Yagi, Candice K. Kohlmeier, Carol Glaser, Duc Vugia, Anna Bakardjiev, Parvin Azimi, Mary Maddux-Gonzalez, A. Julio Martinez & Govinda S. Visvesvara (July 2003). "Environmental Isolation of Balamuthia mandrillaris Associated with a Case of Amebic Encephalitis". J. Clin. Microbiol. 41 (7): 3175–3180. doi:10.1128/JCM.41.7.3175-3180.2003. PMC 165348. PMID 12843060.CS1 maint: uses authors parameter (link)
  4. Thelma H. Dunnebacke, Frederick L. Schuster, Shigeo Yagi & Gregory C. Booton (September 2004). "Balamuthia mandrillaris from soil samples" (PDF). Microbiology. 150 (Pt 9): 2837–2842. doi:10.1099/mic.0.27218-0. PMID 15347743.CS1 maint: uses authors parameter (link)
  5. Kaneshiro, E. S.; Marciano-Cabral, F.; Moura, H. (2014). "Govinda S. Visvesvara: A Tribute". The Journal of Eukaryotic Microbiology. 62 (1): 1–2. doi:10.1111/jeu.12143. PMC 5674982. PMID 25040661.
  6. Ruqaiyyah Siddiqui & Naveed Ahmed Khan (2015). "Balamuthia mandrillaris: Morphology, biology and virulence". Trop. Parasitol. 5 (1): 15–22. doi:10.4103/2229-5070.149888. PMC 4326988. PMID 25709948.CS1 maint: uses authors parameter (link)
  7. Guerrant RL, Walker DH, Weller PF (2011). Tropical Infectious Diseases:Principles, Pathogens and Practice (3rd ed.). Saunders. ISBN 978-0702039355. Retrieved 6 September 2016.
  8. Abdul Mannan Baig. Pathogenesis of amoebic encephalitis: Are the amoebas being credited to an 'inside job' done by the host immune response? Acta Trop. 2015 Apr
  9. Di Gregorio, C; Rivasi F; Mongiardo N; De Rienzo B; Wallace S; Visvesvara GS (December 1992). "Acanthamoeba meningoencephalitis in a patient with acquired immunodeficiency syndrome". Archives of Pathology & Laboratory Medicine. 116 (12): 1363–5. PMID 1456885.
  10. Mannan Baig, Abdul (Dec 2014). "Granulomatous amoebic encephalitis: ghost response of an immunocompromised host?". J Med Microbiol. 63 (12): 1763–6. doi:10.1099/jmm.0.081315-0. PMID 25239626.
  11. Martínez AJ, Visvesvara GS (March 2001). "Balamuthia mandrillaris infection". J. Med. Microbiol. 50 (3): 205–7. doi:10.1099/0022-1317-50-3-205. PMID 11232763.
  12. Greninger, Alexander L.; Messacar, Kevin; Dunnebacke, Thelma; Naccache, Samia N.; Federman, Scot; Bouquet, Jerome; Mirsky, David; Nomura, Yosuke; Yagi, Shigeo; Glaser, Carol; Vollmer, Michael; Press, Craig A.; Kleinschmidt-DeMasters, Bette K.; Dominguez, Samuel R.; Chiu, Charles Y. (2015). "Clinical metagenomic identification of Balamuthia mandrillaris encephalitis and assembly of the draft genome: the continuing case for reference genome sequencing". Genome Medicine. 7 (1): 113. doi:10.1186/s13073-015-0235-2. ISSN 1756-994X. PMC 4665321. PMID 26620704.
  13. Deetz, T. R.; Sawyer, M. H.; Billman, G.; Schuster, F. L.; Visvesvara, G. S. (15 November 2003). "Successful Treatment of Balamuthia Amoebic Encephalitis: Presentation of 2 Cases". Clinical Infectious Diseases. 37 (10): 1304–1312. doi:10.1086/379020. PMID 14583863. Retrieved 14 June 2014.
  14. Piper, Keenan H.; Foster, Haidn; Susanto, Daniel; Maree, Cynthia L.; Thornton, Sean D.; Cobbs, Charles S. (December 2018). "Fatal Balamuthia mandrillaris brain infection associated with improper nasal lavage". International Journal of Infectious Diseases. 77: 18–22. doi:10.1016/j.ijid.2018.09.013. PMID 30243910.
  15. Laurie, Matthew T.; White, Corin V.; Retallack, Hanna; Wu, Wesley; Moser, Matthew S.; Sakanari, Judy A.; Ang, Kenny; Wilson, Christopher; Arkin, Michelle R.; DeRisi, Joseph L.; Bassler, Bonnie (2018). "Functional Assessment of 2,177 U.S. and International Drugs Identifies the Quinoline Nitroxoline as a Potent Amoebicidal Agent against the Pathogen Balamuthia mandrillaris". mBio. 9 (5). doi:10.1128/mBio.02051-18. ISSN 2150-7511. PMC 6212833. PMID 30377287.
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