Freemartin

A freemartin or free-martin (sometimes martin heifer) is an infertile female mammal with masculinized behavior and non-functioning ovaries.[1] Genetically the animal is chimeric: Karyotyping of a sample of cells shows XX/XY chromosomes. The animal originates as a female (XX), but acquires the male (XY) component in utero by exchange of some cellular material from a male twin, via vascular connections between placentas. Externally, the animal appears female, but various aspects of female reproductive development are altered due to acquisition of anti-Müllerian hormone from the male twin.[2] Freemartinism is the normal outcome of mixed-sex twins in all cattle species that have been studied, and it also occurs occasionally in other mammals including sheep, goats and pigs.

History

Freemartins are known to have been described by the Roman writer Varro, who called them "taura".[3]

The 18th-century physician John Hunter discovered that a freemartin always has a male twin.[4]

It was hypothesized early in the 20th century that masculinizing factors travel from the male twin to the female twin through the vascular connections of the placenta because of the vascular fusion and affect the internal anatomy of the female.[5]

Several researchers made the discovery that a freemartin results when a female fetus has its chorion fuse in the uterus with that of a male twin. The result was published in 1916 by Tandler and Keller.[6] The discovery was made independently by American biologist Frank R. Lillie, who published it in Science in 1916.[7] Both teams are now credited with the discovery.[8]

In rural areas folklore often claimed this condition was not just peculiar to cattle, but extended also to human twins; this belief perpetuated for generations, as was mentioned in the writings of Bede.[9]

Etymology

The etymology of the term "freemartin" is uncertain: speculations include that "free" may indicate "willing" (referring to the freemartin's willingness to work) or "exempt from reproduction" (referring to its sterility, or to a farmer's decision to not bother trying to breed a freemartin, or both), or that it may be derived from a Flemish word for a cow which gives no milk and/or has ceased to be capable of bearing offspring;[3] "martin" is generally held to derive from an Irish or Gaelic word for "cow" or "heifer", although connections to Martinmas have also been posited.[3]

Mechanism

In most cattle twins, the blood vessels in the chorions become interconnected, creating a shared circulation for both twins. If both fetuses are the same sex this is of no significance, but if they are different, male hormones pass from the male twin to the female twin. The male hormones (testosterone and anti-Müllerian hormone) then masculinize the female twin, and the result is a freemartin.[10] The degree of masculinization is greater if the fusion occurs earlier in the pregnancy in about ten percent of cases no fusion takes place and the female remains fertile.

The male twin is largely unaffected by the fusion, although the size of the testicles may be slightly reduced. Testicle size is associated with fertility, so there may be some reduction in bull fertility.

Freemartins behave and grow in a similar way to castrated male cattle (steers).

Diagnosis

If suspected, a test can be done to detect the presence of the male Y-chromosomes in some circulating white blood cells of the subject. Genetic testing for the Y-chromosome can be performed within days of birth and can aid in the early identification of a sterile female bovine.

Physical examination of the calf may also reveal differences: many (but not all) freemartins have a short vagina compared with that of a fertile heifer.[11]

Other animals

A freemartin is the normal outcome of mixed twins in all cattle species which have been studied. It does not normally occur in most other mammals, though it has been recorded in sheep,[12] goats,[13] and pigs.[14]

Uses

Freemartins are occasionally used in stem cell and immunology research.[15] During fetal development cells are exchanged between the fused circulations of the bovine twins. Up to 95% of the freemartin's blood cells can be derived from those of her twin brother. Male-derived cells and their progeny can be easily visualized in the freemartin tissues, as only they contain the male Y chromosome. Thus, by analyzing these tissues, one can investigate the capacity of hematopoietic stem cells or other circulating cells to produce other tissues in addition to blood. The freemartin model allows one to analyze perfectly healthy and unmanipulated animals, without resorting to transplantation often used in stem cell research.

Fictional use

References

  1. Freemartinism at the US National Library of Medicine Medical Subject Headings (MeSH)
  2. Rota A, Ballarin C, Vigier B, Cozzi B, Rey R (October 2002). "Age dependent changes in plasma anti-Müllerian hormone concentrations in the bovine male, female, and freemartin from birth to puberty: relationship between testosterone production and influence on sex differentiation". General and Comparative Endocrinology 129 (1): 39–44. doi:10.1016/S0016-6480(02)00514-2. PMID 12409094.
  3. 3.0 3.1 3.2 EARLY RECOGNITION OF THE FREEMARTIN CONDITION IN HEIFERS TWINBORN WITH BULLS, by W.W. Swett, C.A. Matthews, and R. R. Graves, in the Journal of Agricultural Research, vol. 61, no. 8 (October 15, 1940)
  4. Hunter, John (1779). "Account of the Free Martin. By Mr. John Hunter, F. R. S.". Philosophical Transactions of the Royal Society of London 69: 279–93. Bibcode:1779RSPT...69..279H. doi:10.1098/rstl.1779.0020. JSTOR 106420.
  5. (Nelson, Randy. An introduction to behavioral endocrinology. Sinauer Associates: Massachusetts. 2005: pg 145)
  6. Keller, K. and Tandler, J.: Wiener Tieraztl. Wochensch., 3, 513-526 (1916).
  7. Lillie FR (April 1916). "The Theory of the Free-Martin". Science 43 (1113): 611–3. Bibcode:1916Sci....43..611L. doi:10.1126/science.43.1113.611. JSTOR 1641047. PMID 17756274.
  8. Freeman G (March 2007). "Explaining the freemartin: Tandler and Keller vs. Lillie and the question of priority". Journal of Experimental Zoology. Part B, Molecular and Developmental Evolution 308 (2): 105–12. doi:10.1002/jez.b.21151. PMID 17219370.
  9. de Albuquerque, Martim Notes and Queries Volume 2. 1857 by Oxford University Press, p. 149
  10. Padula AM (June 2005). "The freemartin syndrome: an update". Animal Reproduction Science 87 (1–2): 93–109. doi:10.1016/j.anireprosci.2004.09.008. PMID 15885443.
  11. Eldridge FE, Blazak WF (March 1977). "Chromosomal analysis of fertile female heterosexual twins in cattle". Journal of Dairy Science 60 (3): 458–63. doi:10.3168/jds.S0022-0302(77)83888-5. PMID 845292.
  12. Wilkes PR, Munro IB, Wijeratne WV (February 1978). "Studies on a sheep freemartin". The Veterinary Record 102 (7): 140–2. doi:10.1136/vr.102.7.140. PMID 565559.
  13. Ilbery PL, Williams D (1967). "Evidence of the freemartin condition in the goat". Cytogenetics 6 (3): 276–85. doi:10.1159/000129948. PMID 6035567.
  14. Bruere AN, Fielden ED, Hutchings H (March 1968). "XX-XY mosaicism in lymphocyte cultures from a pig with freemartin characteristics". New Zealand Veterinary Journal 16 (3): 31–8. doi:10.1080/00480169.1968.33743. PMID 5241942.
  15. Niku M, Ilmonen L, Pessa-Morikawa T, Iivanainen A (2004). "Limited contribution of circulating cells to the development and maintenance of nonhematopoietic bovine tissues". Stem Cells 22 (1): 12–20. doi:10.1634/stemcells.22-1-12. PMID 14688387.

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