Microsporidia

Jump to: navigation, search
Microsporidia
Fibrillanosema crangonycis
Fibrillanosema crangonycis
Scientific classification
Kingdom: Fungi
Phylum: Zygomycota
Class: Microsporidia
Balbiani 1882[1]
Subclasses

Dihaplophasea
Haplophasea

This page is about microbiologic aspects of the organism(s).  For clinical aspects of the disease, see Microsporidiosis.

Microsporidiosis Microchapters

Home

Patient Information

Overview

Historical perspective

Classification

Pathophysiology

Causes

Differentiating Microsporidiosis from other Diseases

Epidemiology and Demographics

Risk Factors

Natural History, Complications and Prognosis

Diagnosis

History and Symptoms

Physical Examination

Laboratory findings

X ray

CT

MRI

Other imaging studies

Other Diagnostic Studies

Treatment

Medical Therapy

Surgery

Primary Prevention

Secondary Prevention

Cost-Effectiveness of Therapy

Future or Investigational Therapies

Case Studies

Case #1

Microsporidia On the Web

Most recent articles

Most cited articles

Review articles

CME Programs

Powerpoint slides

Images

American Roentgen Ray Society Images of Microsporidia

All Images
X-rays
Echo & Ultrasound
CT Images
MRI

Ongoing Trials at Clinical Trials.gov

US National Guidelines Clearinghouse

NICE Guidance

FDA on Microsporidia

CDC on Microsporidia

Microsporidia in the news

Blogs on Microsporidia

Directions to Hospitals Treating Microsporidiosis

Risk calculators and risk factors for Microsporidia

Editor-In-Chief: C. Michael Gibson, M.S., M.D. [1]

Overview

Microsporidia are parasites of animals, now considered to be extremely reduced fungi. Most infect insects, but they are also responsible for common diseases of crustaceans and fish, and have been found in most other animal groups, including humans and other mammals which can be parasitized by species of Encephalitozoon. Replication takes place within the host's cells, which are infected by means of unicellular spores. These vary from 1-40 μm, making them some of the smallest eukaryotes. They also have the shortest eukaryotic genomes.

Microsporidia are unusual in lacking mitochondria and in having mitosomes. They also lack motile structures such as flagella. The spores are protected by a layered wall including proteins and chitin. Their interior is dominated by a unique coiled structure called a polar tube (not to be confused with the polar filaments of Myxozoa). In most cases there are two closely associated nuclei, forming a diplokaryon, but sometimes there is only one.

During infection, the polar tube penetrates the host cell (the process has been compared by Patrick J. Keeling to "turning a garden hose inside out"), and the contents of the spore are pumped through it. Keeling likens the system to a combination of "harpoon and hypodermic syringe", adding that it is "one of the most sophisticated infection mechanisms in biology".

Once inside the host cell, the sporoplasm grows, dividing or forming a multinucleate plasmodium before producing new spores. The life cycle varies considerably. Some have a simple asexual life cycle, while others have a complex life cycle involving multiple hosts and both asexual and sexual reproduction. Different types of spores may be produced at different stages, probably with different functions including autoinfection (transmission within a single host). The Microsporidia often cause chronic, debilitating diseases rather than lethal infections. Effects on the host include reduced longevity, fertility, weight, and general vigor. Vertical transmission of microsporidia is frequently reported. In the case of insect hosts, vertical transmission often occurs as transovarial transmission, where the microsporidian parasites pass from the ovaries of the female host into eggs and eventually multiply in the infected larvae. Amblyospora salinaria n. sp. which infects the mosquito Culex salinarius Coquillett, and Amblyospora californica which infects the mosquito Culex tarsalis Coquillett, provide typical examples of transovarial transmission of microsporidia (Andreadis and Hall 1979a,b; Jahn et al. 1986; Becnel and Andreadis 1998).

Because they are unicellular, Microsporidia were traditionally treated as protozoa, and like other amitochondriate eukaryotes were considered to have diverged very early on. However, other genes place them alongside or within the Fungi, and this is supported by several chemical and morphological features. In particular, they appear to be allied with the Zygomycota or Ascomycota.

Microsporidium was once the vernacular name for a member of the class Microsporea (Corliss and Levine 1963).

Classification

Microsporidia causing human disease

Although phylum microsporidia have more than 1000 species and over 100 genres, Only 14 species were associated with human disease.

  • Anncaliia (formerly Brachiola)[2]
    • A. algerae, A. connori, A. vesicularum
  • Encephalitozoon
    • E. cuniculi, E. hellem, E. intestinalis (formerly Septata intestinalis)
  • Enterocytozoon
    • E. bieneusi
  • Microsporidium
    • M. ceylonensis, M. africanum
  • Nosema
    • N. ocularum
  • Pleistophora sp.
  • Trachipleistophora
    • T. hominis, T. anthropophthera
  • Vittaforma
    • V. corneae.
  • Tubulinosema
    • T. acridophagus

Diseases caused by the different species

The clinical manifestations vary according to the causative species with diarrhea being the most common presentation.[3]

Microsporidian species Clinical manifestation
Anncaliia algerae Keratoconjunctivitis, skin and deep muscle infection
Enterocytozoon bieneusi* Diarrhea, acalculous cholecystitis
Encephalitozoon cuniculi and Encephalitozoon hellem Keratoconjunctivitis, infection of respiratory and genitourinary tract, disseminated infection
Infection of the GI tract causing diarrhea, and dissemination to ocular, genitourinary and respiratory tracts
Microsporidium (M. ceylonensis and M. africanum) Infection of the cornea
Nosema sp. (N. ocularum), Anncaliia connori Ocular infection
Pleistophora sp. Muscular infection
Trachipleistophora anthropophthera Disseminated infection
Trachipleistophora hominis Muscular infection, stromal keratitis, (probably disseminated infection)
Tubulinosema acridophagus Disseminated infection
Vittaforma corneae (syn. Nosema corneum) Ocular infection, urinary tract infection

*Two reports of E. bieneusi in respiratory samples have also been published, one in 1992 and the other in 1997.


See also

References

  1. Balbiani, G. (1882). "Sur les microsporides ou psorospermies des Articulés". Comptes rendus de l’Académie des Sciences, Paris. 95: 1168–1171.
  2. Didier ES, Weiss LM (2006). "Microsporidiosis: current status". Curr Opin Infect Dis. 19 (5): 485–92. doi:10.1097/01.qco.0000244055.46382.23. PMC 3109650. PMID 16940873.
  3. "CDC - DPDx - Microsporidiosis".
  • Andreadis, T. G., and Hall, D. W. 1979a. Development, ultrastructure, and mode of transmission of Amblyospora sp. (Microspora) in the mosquito. J. Protozool. 26, 444–452.
  • Andreadis, T. G., and Hall, D. W. 1979b. Significance of transovarial infections of Amblyospora sp. (Microspora: Thelohaniidae) in relation to parasite maintenance in the mosquito Culex salinarius. J. Invertebr. Pathol. 34, 152–157.
  • Becnel, J. J. and Andreadis, T. G. 1998. Amblyospora salinaria n. sp. (Microsporidia: Amblyosporidae): parasite of Culex salinarius (Diptera: Culicidae), its life stages in an intermediate host and establishment as a new species. J. Invertebr. Pathol. 71:258-262.
  • Corliss, J.O. and Levine, N.D. 1963. Establishment of the Microsporidia as a new class in the protozoan subphylum Cnidospora.. J. Protozool., 10 (Suppl.), 26-27.
  • Jahn, G. C., Hall, D.W., and Zam, S. G. 1986. A comparison of the life cycles of two Amblyospora (Microspora: Amblyosporidae) in the mosquitoes Culex salinarius and Culex tarsalis Coquillett. J. Florida Anti-Mosquito Assoc. 57, 24–27.
  • Patrick J. Keeling et al. (2000). Evidence from Beta-Tubulin Phylogeny that Microsporidia Evolved From Within the Fungi. Molecular Biology and Evolution 17:23-31.
  • Nature 414, 401 - 402 (22 November 2001); doi:10.1038/35106666

ca:Microsporidi hu:Kisspórások



Linked-in.jpg