Paracoccidioides brasiliensis

Paracoccidioides brasiliensis
Scientific classification
Kingdom: Fungi
Division: Ascomycota
Class: Eurotiomycetes
Order: Onygenales
Family: Ajellomycetaceae
Genus: Paracoccidioides
Species: P. brasiliensis
Binomial name
Paracoccidioides brasiliensis
(Splend.) F.P.Almeida (1930)
Synonyms

Zymonema brasiliensis Splend. (1912)
Coccidioides brasiliensis F.P.Almeida (1929)

Paracoccidioides brasiliensis is a dimorphic fungus and the causative agent of the disease paracoccidioidomycosis.[1][2][3] The fungus has been affiliated with the family Ajellomycetaceae (division Ascomycota) although a sexual state or teleomorph has not yet been found.[4]

History

Paracoccidioides brasiliensis was first discovered by Adolfo Lutz in 1908 in Brazil.[5] Although Lutz did not suggest a name for the disease caused by this fungus, he made note of structures he called “pseudococcidica” together with mycelium in cultures grown at 25°C.[5] In 1912, Alfonse Splendore[6] proposed the name Zymonema brasiliense and described the features of the fungus in culture.[5] Finally in 1930, Floriano de Almeida created the genus Paracoccidioides to accommodate the species, noting its distinction from Coccidioides immitis.[5]

Physiology

Paracoccidioides brasiliensis is a nonphotosynthetic eukaryote with a rigid cell wall and organelles very similar to those of higher eukaryotes.[2][7] Being a dimorphic fungus, it has the ability to grow an oval yeast-like form at 37°C and an elongated mycelial form produced at room temperature.[8] The mycelial and yeast phases differ in their morphology, biochemistry, and ultrastructure.[7] The yeast form contains large amounts of α-(1,3)-linked glucan.[9][10] The chitin content of the mycelial form is greater than that of the yeast form, but the lipid content of both phases is comparable.[9] The yeast reproduces by asexual budding, where daughter cells are borne asynchronously at multiple, random positions across the cell surface. Buds begin by layers of cell wall increasing in optical density at a point that eventually gives rise to the daughter cell.[2] Once the bud has expanded, a cleavage plane develops between the nascent cell and the mother cell. Following dehiscence, the bud scar disappears.[7] In tissue, budding occurs inside the granulomatous center of the disease lesion, as visualized by hematoxylin and eosin (H&E) staining of histologic sections.[9] Nonbudding cells measure 5–15 µm in diameter, whereas those with multiple spherical buds measure from 10–20 µm in diameter.[9] In electron microscopy, cells with multiple buds have been found to have peripherally located nuclei and cytoplasm surrounding a large central vacuole.[11] In the tissue form of P. brasiliensis, yeast cells are larger with thinner walls and a narrower bud base than those of the related dimorphic fungus, Blastomycosis dermatitidis.[9] The yeast-like form of P. brasiliensis contains multiple nuclei, a porous two-layered nuclear membrane, and a thick cell wall rich in fibers, whereas the mycelial phase has thinner cell walls with a thin, electron-dense outer layer.[7]

Dimorphism

The yeast form of P. brasiliensis can be converted to the mycelial form in vitro by growth on brain heart infusion agar or blood-glucose-cysteine agar when incubated for 10–20 days at 37°C.[9] Under these conditions, hyphal cells either die or convert to transitional forms measuring 6–30 µm in diameter, which ultimately detach or remain on the hyphal cells, yielding buds.[9] New buds develop mesosomes and become multinucleated.[9] In contrast, yeast-like cultures can be converted to the mycelial form by reducing the incubation temperature from 37 to 25°C.[12] Initially it, nutritional requirements of both the yeast and mycelial phases of P. brasiliensis were thought to be identical;[13] however, later studies demonstrated the yeast form to be auxotrophic, requiring exogenous sulfur-containing amino acids including cysteine and methionine for growth.[14]

Ecology

Although the habitat of P. brasiliensis remains unknown, it is commonly associated with soils in which coffee is cultivated.[4][15][16] It has also been associated with the nine-banded armadillo, Dasypus novemcinctus.[17] The disease caused by P. brasiliensis is mostly geographically restricted to Latin American countries such as Brazil, Colombia, and Venezuela, with the greatest number of cases seen in Brazil.[9] The endemic areas are characterized by hot, humid summers, dry temperate winters, average annual temperatures between 17 and 23°C, and annual rainfall between 500 and 800 mm.[18] However, the precise ecology regularities of the fungus remain elusive, and P. brasiliensis has rarely been encountered in nature outside the human host.[2] One such rare example of environmental isolation was reported in 1971 by Maria B.de Albornoz and colleagues who isolated P. brasiliensis from samples of rural soil collected in Paracotos in the state of Miranda, Venezuela.[19] In in vitro studies, the fungus has been shown to grow when inoculated into soil and sterile horse or cow excrement.[20] The mycelial phase has also been shown to survive longer than the yeast phase in acidic soil.[21] Despite a sexual state not having been documented, molecular investigations suggest the existence of recombining populations of P. brasiliensis, potentially by means of an undiscovered sexual state.[22]

Epidemiology

P. brasiliensis causes a disease known as paracoccidioidomycosis characterized by slow, progressive granulomatous changes in the head mucosa, notably the nose and sinuses or the skin. Uncommonly, the disease affects the lymphatic system, the central nervous system, the gastrointestinal tract, or the skeletal system.[9] Due to the high proportion of cases affecting the oral mucosa, these tissues were originally thought to be the primary route of entry of fungus.[2] However, strong evidence now indicates the respiratory tract is the chief point of entry[9] and P. brasiliensis lung lesions occur in nearly a third of progressive cases.[23] The disease is not contagious.[9] Paracoccidioidomycosis is more frequently seen in adult males than females.[9][24] The hormone estrogen is thought to inhibit the transformation of the mycelial to the yeast form, as supported by in vitro experimental data, and this factor may account for the relative resistance of women to infection.[25]

Detection and surveillance

A number of serologic tests have been employed for the diagnosis of paracoccidioidomycosis.[9] Double diffusion in agar gel and complement fixation test, are amongst the most commonly used tests in serodiagnosis.[9] Culture extracts of the yeast or mycelia are exploited to produce effective, quick, and reproducible antigens.[9][26] A study reported detection of 43 kD antigen in pooled sera of affected individuals, which might provide a basis for the development of a diagnostic test.[27] Tests targeting the presence of serum antibodies to P. brasiliensis simultaneously detect both active and historical infections and cannot descriminate active infection. The evaluation of populations in endemic zones has shown roughly equal rates of seroconversion between men and women, suggesting equal rates of exposure, despite the strong male predominance shown by the clinical disease.[9]

Clinical manifestations

P. brasiliensis causes mucous membrane ulceration of the mouth and nose with spreading through the lymphatic system. A hypothesis for entry of the fungus to the body is through periodontal membrane.[28][29] The route of infection is assumed to be inhalation following which the infective propagule gives rise to the distinctive multipolar budding yeast forms in the lung resembling a "ship's wheel" seen in histological sections.[8][30] Both immunologically normal and compromised people are at risk for infection.[8] The lungs, lymph nodes, and mucous membrane of the mouth are the most frequently infected tissues.[9] The pathological features of paracoccidioidomycosis are similar to those seen in coccidioidomycosis and blastomycosis.[31] However in the former, the lesions first appear in the lymphoid tissue and then extend to mucous membranes,[31] producing localized to diffusive tissue necrosis of the lymph nodes.[31] The typically extensive involvement of lymphoid tissue and the limited occurrence of the gastrointestinal tract, bone and prostate set the clinical picture of paracoccidioidomycosis apart from that of blastomycosis.[9][31]

References

  1. Ryan, KJ (2004). Sherris Medical Microbiology (4th ed.). McGraw Hill. p. 683. ISBN 0-8385-8529-9.
  2. 1 2 3 4 5 Pan American Health Organization. Scientific Publication No. 254 (1971). Paracoccidioidomycosis (1st ed.). Washington Pan American Health Organization. p. 325.
  3. Brummer E, Castaneda E, Restrepo A (1993). "Paracoccidioidomycosis: an update". Clin. Microbiol. Rev. 6 (2): 89–117. doi:10.1128/CMR.6.2.89 (inactive 2016-01-07). PMC 358272. PMID 8472249.
  4. 1 2 Bagagli E, Theodoro RC, Bosco SM, et al. (2008). "Paracoccidioides brasiliensis: phylogenetic and ecological aspects". Mycopathologia 165 (4–5): 197–207. doi:10.1007/s11046-007-9050-7. PMID 18777629.
  5. 1 2 3 4 Lacaz, CS; Franco (1994). "Historical evolution of the knowledge on paracoccidioidomycosis and its etiologic agent, Paracoccidioides brasiliensis". Boca Raton:CRC Press: 1–11.
  6. http://www.whonamedit.com/doctor.cfm/1534.html
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  8. 1 2 3 Reiss, E (2011). Fundamental Medical Mycology. New Jersey:Wiley-Blackwell: Hoboken. p. 624. ISBN 9780470177914.
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  17. Bagagli, Eduardo; Bosco, Sandra M.G.; Theodoro, Raquel Cordeiro; Franco, Marcello (September 2006). "Phylogenetic and evolutionary aspects of Paracoccidioides brasiliensis reveal a long coexistence with animal hosts that explain several biological features of the pathogen". Infection, Genetics and Evolution 6 (5): 344–351. doi:10.1016/j.meegid.2005.12.002.
  18. Borelli, D (1969). "Reservareas de algunos agentes de micosis". Med. Cutan. Iber. Lat. Am. 3: 367–370.
  19. Albornoz, M; Albornoz (1971). "Estudio de la sensibilidad especifica en residents de un area endemica a la paracoccidiodomycosis en Venezuela". Mycopathologia 45 (2): 65–75. doi:10.1007/bf02059246.
  20. Borelli, D (1961). "Hipotesis sobre ecologia de Paracoccidioides". Derm. Venez. 3: 130–132.
  21. Restrepo, M; et al. (1969). "Effect of hydrogen ion concentration and of temperature on the growth of Paracoccidioides brasiliensis in soil extract". Sabouraudia 7 (3): 207–215. doi:10.1080/00362177085190371. PMID 5385156.
  22. Matute, D. R.; el al. (24 August 2005). "Cryptic Speciation and Recombination in the Fungus Paracoccidioides brasiliensis as Revealed by Gene Genealogies". Molecular Biology and Evolution 23 (1): 65–73. doi:10.1093/molbev/msj008. PMID 16151188.
  23. Londero, A.T; Ramos C.D (1972). "Paracoccidioidomycosis: a clinical and mycologic study in forty one cases observed in Santa Maria, RS, Brazil". Am. J. Med. 52 (6): 771–775. doi:10.1016/0002-9343(72)90083-6. PMID 5030174.
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  26. Blumer, S.O; Jalbert M (1984). "Rapid and reliable method for production of a specific Paracoccidioides brasiliensis immunodiffucsion test antigen". J. Clin. Microbiol. 19 (3): 404–407. PMC 271074. PMID 6425358.
  27. Mendes-Giannini, M.J.S; et al. (1989). "Detection of the 43,000-molecular-weight glycoprotein in sera of patients with paracoccidioidomycosis". J. Clin. Microbiol. 27 (12): 2842–2845. PMC 267138. PMID 2592544.
  28. Smith J M (1969). "Mycoses of the alimentary tract.". Gut 10 (12): 1035–1040. doi:10.1136/gut.10.12.1035. PMC 1553013. PMID 4904223.
  29. García AM, Hernández O, Aristizabal BH, et al. (2010). "Gene expression analysis of Paracoccidioides brasiliensis transition from conidium to yeast cell". Med. Mycol. 48 (1): 147–154. doi:10.3109/13693780903055673. PMID 19568977.
  30. Restrepo A, McEwen JG, Castañeda E (2001). "The habitat of Paracoccidioides brasiliensis: how far from solving the riddle?". Med. Mycol. 39 (3): 233–41. doi:10.1080/714031028. PMID 11446526.
  31. 1 2 3 4 Rippon, John (1982). Medical mycology : the pathogenic fungi and the pathogenic actinomycetes (2nd ed.). Philadelphia: Saunders. ISBN 0721675867.

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