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Chlamydia

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Chlamydia
SpecialtyInfectious diseases Edit this on Wikidata
The term Chlamydia refers to an infection by any one of the species in the bacterial genus ChlamydiaChlamydia trachomatis, Chlamydia suis or Chlamydia muridarum—, but of these, only C. trachomatis is found in humans.[1] For a list of species formerly included in the genus Chlamydia, please see Chlamydophila.[2]

Chlamydia (from the Greek, χλαμύδος meaning "cloak") is a common sexually transmitted disease (STD) caused by the bacterium, Chlamydia trachomatis. Chlamydia is a major infectious cause of human eye and genital disease.

C. trachomatis is naturally found living only inside human cells and is one of the most common sexually transmitted infections in people worldwide — about 2.8 million cases of chlamydia infection occur in the United States each year.[3] Chlamydia can be transmitted during vaginal, anal, or oral sex, and can be passed from an infected mother to her baby during vaginal childbirth. Many people with Chlamydia exhibit no symptoms of infection. Between half and three-quarters of all women who have chlamydia have no symptoms and do not know that they are infected. If untreated, chlamydial infections can cause serious reproductive and other health problems with both short-term and long-term consequences. Chlamydia is easily treated with antibiotics.

Of equal importance, chlamydia infection of the eye is the most common cause of preventable blindness in the world. Blindness occurs as a complication of trachoma (chlamydia conjunctivitis).[4]

Chlamydia Video

Symptoms

Chlamydial cervicitis in a female patient characterized by mucopurulent cervical discharge, erythema, and inflammation.

Chlamydia is an asymptomatic disease for about 50-70% of the female population. Of those who have an asymptomatic infection that is not detected by their doctor, approximately half will develop pelvic inflammatory disease (PID), a generic term for infection of the uterus, fallopian tubes, and/or ovaries. PID can cause scarring inside the reproductive organs, which can later cause serious complications, including chronic pelvic pain, difficulty becoming pregnant, ectopic (tubal) pregnancy, and other dangerous complications of pregnancy. Chlamydia causes 250,000 to 500,000 cases of PID every year in the U.S. Women infected with chlamydia are up to five times more likely to become infected with HIV, if exposed.[5]

Chlamydia is known as the "Silent Epidemic" because in women, it may not cause any symptoms and will linger for months or years before being discovered. Symptoms that may occur include: unusual vaginal bleeding or discharge, pain in the abdomen, painful sexual intercourse (dyspareunia), fever, painful urination or the urge to urinate more frequently than usual.

Male patients may develop a white, cloudy or watery discharge (shown) from the tip of the penis.

In men, chlamydia shows symptoms in about 50% of cases. Symptoms that may occur include: a painful or burning sensation when urinating, an unusual discharge from the penis, swollen or tender testicles, or fever. Discharge, or the purulent exudate, is generally less viscous and lighter in color than for gonorrhea. If left untreated, it is possible for Chlamydia in men to spread to the testicles causing epididymitis, which in rare cases can cause sterility if not treated within 6 to 8 weeks. Chlamydia causes more than 250,000 cases of epididymitis in the USA each year.

Chlamydia may also cause reactive arthritis, especially in young men. About 15,000 men develop reactive arthritis due to chlamydia infection each year in the USA, and about 5,000 are permanently affected by it. The triad of reactive arthritis, conjunctivitis and urethritis (inflammation of the urethra) is known as Reiter's Syndrome. All three entities must be present for this label to be used. It can occur in both men and women, though is more common in men.

As many as half of all infants born to mothers with chlamydia will be born with the disease. Chlamydia can affect infants by causing spontaneous abortion; premature birth; conjunctivitis, which may lead to blindness; and pneumonia. Conjunctivitis due to chlamydia typically occurs one week after birth (Compare with chemical causes (within hours) or gonorrhea (2-5 days)).

Detection

The diagnosis of genital chlamydial infections evolved rapidly from the 1990s through 2006. Nucleic acid amplification tests (NAAT), such as polymerase chain reaction (PCR), transcription mediated amplification (TMA), and the DNA strand displacement assay (SDA) now are the mainstays. As of January 2007, the most commonly used and widely studied chlamydia NAATs in the US and many other industrialized countries are Aptima (Gen-Probe), Probe-Tec (Becton-Dickinson), and Amplicor (Roche). The Aptima Combo II assay tests simltaneously for C. trachomatis and Neisseria gonorrhoeae, the cause of gonorrhea. NAAT for chlamydia may be performed on swab specimens collected from the cervix (women) or urethra (men), on self-collected vaginal swabs, or on voided urine. Urine and self-collected swab testing facilitates the performance of screening tests in settings where genital examination is impractical. At present, the NAATs have regulatory approval only for testing urogenital specimens, although rapidly evolving research indicates that the Aptima test may give reliable results on rectal specimens.

Because of improved test accuracy, ease of specimen management, convenience in specimen management, and ease of screening sexually active men and women, the NAATs have largely replaced culture, the historic gold standard for chlamydia diagnosis, and the non-amplified probe tests, such as Pace II (Gen-Probe). The latter test is relatively insensitive, successfully detecting only 60-80% of infections in asymptomatic women, and often giving falsely positive results. Culture remains useful in selected circumstances and is currently the only assay approved for testing non-genital specimens.

Treatment

Chlamydia trachomatis inclusion bodies (brown) in a McCoy cell culture.

C. trachomatis infection can be effectively cured with antibiotics once it is detected. Current Centers for Disease Control guidelines provide for the following treatments:

Untested Treatments

  • Ciprofloxacin 500 milligrams twice daily for 3 days. (Although this is not an approved method of treatment, as it is shown to be ineffective and may simply delay symptoms.)

β-lactams are not suitable drugs for the treatment of chlamydia. While they have the ability to halt growth of the organism (i.e. are microbistatic), these antibiotics do not eliminate the bacteria. Once treatment is stopped, the bacteria will begin to grow once more. (See below for Persistence.)

Pathophysiology

Chlamydial life cycle

Chlamydiae are obligate intracellular bacterial pathogens, which means they are unable to replicate outside of a host cell. However, to disseminate effectively, these pathogens have evolved a unique biphasic life cycle wherein they alternate between two functionally and morphologically distinct forms. [6]

  • The elementary body (EB) is infectious, but metabolically inert (much like a spore), and can survive for limited amounts of time in the extracellular milieu. Once the EB attaches to a susceptible host cell, it mediates its own internalization through pathogen-specified mechanisms (via type III secretion system) that allows for the recruitment of actin with subsequent engulfment of the bacterium.
  • The internalized EB, within a membrane-bound compartment, immediately begins differentiation into the reticulate body (RB). RBs are metabolically active but non-infectious, and in many regards, resemble normal replicating bacteria. The intracellular bacteria rapidly modifies its membrane-bound compartment into the so-called chlamydial inclusion so as to prevent phagosome-lysosome fusion. According to published data, the inclusion has no interactions with the endocytic pathway and apparently inserts itself into the exocytic pathway as it retains the ability to intercept sphingomyelin-containing vesicles.

To date, no one has been able to detect a host cell protein that is trafficked to the inclusion through the exocytic pathway. As the RBs replicate, the inclusion grows as well to accommodate the increasing numbers of organisms. Through unknown mechanisms, RBs begin a differentiation program back to the infectious EBs, which are released from the host cell to initiate a new round of infection. Because of their obligate intracellular nature, Chlamydiae have no tractable genetic system, unlike E. coli, which makes Chlamydiae and related organisms difficult to investigate.

Persistence

Chlamydiae have the ability to establish long-term associations with host cells. When an infected host cell is starved for various nutrients such as amino acids (e.g. tryptophan),[7] iron, or vitamins, this has a negative consequence for Chlamydiae since the organism is dependent on the host cell for these nutrients.

The starved chlamydiae enter a persistent growth state wherein they stop cell division and become morphologically aberrant by increasing in size.[8] Persistent organisms remain viable as they are capable of returning to a normal growth state once conditions in the host cell improve.

There is much debate as to whether persistence has in vivo relevance. Many believe that persistent chlamydiae are the cause of chronic chlamydial diseases. Some antibiotics such as β-lactams can also induce a persistent-like growth state, which can contribute to the chronicity of chlamydial diseases.

Diseases caused by Chlamydia trachomatis

Conjunctivitis due to chlamydia.

Chlamydia trachomatis can cause the following conditions:

Recent genetic discoveries

Recent phylogenetic studies have revealed that chlamydia shares a common ancestor with modern plants, and retains unusual plant-like traits (both genetically and physiologically). In particular, the enzyme L,L-diaminopimelate aminotransferase, which is related to lysine production in plants, is also linked with the construction of chlamydia's cell wall. The genetic encoding for the enzymes is remarkably similar in plants and chlamydia, demonstrating a close common ancestry.[9]

This unexpected discovery may help scientists develop new treatment avenues: if scientists could find a safe and effective inhibitor of L,L-diaminopimelate aminotransferase, they might have a highly effective and extremely specific new antibiotic against chlamydia.

References

  1. ^ "www.chlamydiae.com (professional) - Taxonomy diagram". Retrieved 2007-10-27.
  2. ^ Taxonomic Outline of the Procaryotes, Bergey's Manual of Systematic Bacteriology, Second Edition Release 1.0, April 2001. [1]
  3. ^ Chlamydia fact sheet from the Centers for Disease Control and Prevention
  4. ^ Belland R, Ojcius D, Byrne G (2004). "Chlamydia". Nat Rev Microbiol. 2 (7): 530–1. PMID 15248311.{{cite journal}}: CS1 maint: multiple names: authors list (link)
  5. ^ "STD Facts - Chlamydia". Retrieved 2007-10-26.
  6. ^ "Structure". Retrieved 2007-10-26.
  7. ^ Leonhardt RM, Lee SJ, Kavathas PB, Cresswell P (2007). "Severe Tryptophan Starvation Blocks Onset of Conventional Persistence and Reduces Reactivation of Chlamydia trachomatis". Infect. Immun. 75 (11): 5105–17. doi:10.1128/IAI.00668-07. PMID 17724071.{{cite journal}}: CS1 maint: multiple names: authors list (link)
  8. ^ Mpiga P, Ravaoarinoro M (2006). "Chlamydia trachomatis persistence: an update". Microbiol. Res. 161 (1): 9–19. doi:10.1016/j.micres.2005.04.004. PMID 16338585.
  9. ^ McCoy AJ, Adams NE, Hudson AO, Gilvarg C, Leustek T, Maurelli AT (2006). "L,L-diaminopimelate aminotransferase, a trans-kingdom enzyme shared by Chlamydia and plants for synthesis of diaminopimelate/lysine". Proc. Natl. Acad. Sci. U.S.A. 103 (47): 17909–14. doi:10.1073/pnas.0608643103. PMID 17093042.{{cite journal}}: CS1 maint: multiple names: authors list (link)