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Guo, L. PITX1 Gene. Encyclopedia. Available online: https://encyclopedia.pub/entry/5766 (accessed on 28 March 2024).
Guo L. PITX1 Gene. Encyclopedia. Available at: https://encyclopedia.pub/entry/5766. Accessed March 28, 2024.
Guo, Lily. "PITX1 Gene" Encyclopedia, https://encyclopedia.pub/entry/5766 (accessed March 28, 2024).
Guo, L. (2020, December 25). PITX1 Gene. In Encyclopedia. https://encyclopedia.pub/entry/5766
Guo, Lily. "PITX1 Gene." Encyclopedia. Web. 25 December, 2020.
PITX1 Gene
Edit

paired like homeodomain 1

genes

1. Introduction

The PITX1 gene provides instructions for making a protein that plays a critical role in development of the lower limbs. The PITX1 protein is found primarily in the developing legs and feet. The protein acts as a transcription factor, which is a protein that attaches (binds) to specific regions of DNA and helps control the activity of particular genes. Specifically, PITX1 regulates the activity of genes to direct the shape and structure of tissues in the lower limbs, including the bones, muscles, and tendons (the bands of tissue that connect muscles to bones).

The PITX1 protein is also found in the developing pituitary gland, which is a hormone-producing gland located at the base of the brain, and in an embryonic structure called the branchial arch. The PITX1 protein may play a role in formation of the pituitary gland and tissues derived from the branchial arch, such as the roof of the mouth, the jaw, and parts of the inner ear.

2. Health Conditions Related to Genetic Changes

2.1. Liebenberg syndrome

Changes in the DNA near the PITX1 gene cause Liebenberg syndrome, a rare condition characterized by abnormal development of the arms, resulting in short fingers (brachydactyly), joint deformities called contractures that limit movement of the elbows and wrists, and other bone and muscle abnormalities. These genetic changes delete, insert, or rearrange genetic material near the PITX1 gene; at least five such mutations have been identified in affected individuals. These changes affect regions of DNA known as regulatory elements, which help turn on or turn off genes (known as enhancers or repressors, respectively). They control when and where certain genes are active. The mutations that cause Liebenberg syndrome likely relocate enhancers that promote the activity of genes involved in upper limb development to be near the PITX1 gene. Alternatively, mutations may remove repressors that normally turn off the PITX1 gene during upper limb development. As a result, the PITX1 gene is abnormally active during arm and hand development. Because the PITX1 protein normally directs lower limb structure, bones, muscles, and tendons in the arms and hands develop more like those in the legs and feet, leading to the features of Liebenberg syndrome. Development of the lower limbs is normal in people with this condition.

2.2. Other disorders

PITX1 gene mutations have been found to cause lower limb abnormalities, including an inward- and upward-turning foot (clubfoot) and absence or severe shortening of a bone in the lower leg called the tibia (tibial hemimelia). These gene mutations have also been found in people with extra toes (polydactyly), specifically a severe form of the abnormality called mirror-image polydactyly. These mutations delete a large part of the PITX1 gene or the whole gene, or change a single protein building block (amino acid) in the PITX1 protein. Unlike the mutations that cause Liebenberg syndrome (described above), these genetic changes reduce the amount of functional PITX1 protein, which disrupts normal development of the lower limbs. The upper limbs are normal in individuals with these PITX1 gene mutations.

3. Other Names for This Gene

  • BFT
  • hindlimb expressed homeobox protein backfoot
  • hindlimb-expressed homeobox protein backfoot
  • homeobox protein PITX1
  • paired-like homeodomain 1
  • paired-like homeodomain transcription factor 1
  • pituitary homeo box 1
  • pituitary homeobox 1
  • pituitary otx-related factor
  • POTX
  • Ptlx
  • PTX1

References

  1. Alvarado DM, McCall K, Aferol H, Silva MJ, Garbow JR, Spees WM, Patel T,Siegel M, Dobbs MB, Gurnett CA. Pitx1 haploinsufficiency causes clubfoot inhumans and a clubfoot-like phenotype in mice. Hum Mol Genet. 2011 Oct15;20(20):3943-52. doi: 10.1093/hmg/ddr313.
  2. DeLaurier A, Schweitzer R, Logan M. Pitx1 determines the morphology of muscle,tendon, and bones of the hindlimb. Dev Biol. 2006 Nov 1;299(1):22-34.
  3. Duboc V, Logan MP. Pitx1 is necessary for normal initiation of hindlimboutgrowth through regulation of Tbx4 expression and shapes hindlimb morphologies via targeted growth control. Development. 2011 Dec;138(24):5301-9. doi:10.1242/dev.074153.
  4. Infante CR, Park S, Mihala AG, Kingsley DM, Menke DB. Pitx1 broadly associateswith limb enhancers and is enriched on hindlimb cis-regulatory elements. DevBiol. 2013 Feb 1;374(1):234-44. doi: 10.1016/j.ydbio.2012.11.017.
  5. Klopocki E, Kähler C, Foulds N, Shah H, Joseph B, Vogel H, Lüttgen S, Bald R, Besoke R, Held K, Mundlos S, Kurth I. Deletions in PITX1 cause a spectrum oflower-limb malformations including mirror-image polydactyly. Eur J Hum Genet.2012 Jun;20(6):705-8. doi: 10.1038/ejhg.2011.264.
  6. Lanctôt C, Moreau A, Chamberland M, Tremblay ML, Drouin J. Hindlimb patterningand mandible development require the Ptx1 gene. Development. 1999May;126(9):1805-10.
  7. Spielmann M, Brancati F, Krawitz PM, Robinson PN, Ibrahim DM, Franke M, Hecht J, Lohan S, Dathe K, Nardone AM, Ferrari P, Landi A, Wittler L, Timmermann B,Chan D, Mennen U, Klopocki E, Mundlos S. Homeotic arm-to-leg transformationassociated with genomic rearrangements at the PITX1 locus. Am J Hum Genet. 2012Oct 5;91(4):629-35. doi: 10.1016/j.ajhg.2012.08.014.
  8. Szeto DP, Rodriguez-Esteban C, Ryan AK, O'Connell SM, Liu F, Kioussi C,Gleiberman AS, Izpisúa-Belmonte JC, Rosenfeld MG. Role of the Bicoid-relatedhomeodomain factor Pitx1 in specifying hindlimb morphogenesis and pituitarydevelopment. Genes Dev. 1999 Feb 15;13(4):484-94.
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