LHX1

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LIM homeobox 1 is a protein that in humans is encoded by the LHX1 gene.[1]

This gene encodes a member of a large protein family which contains the LIM domain, a unique cysteine-rich zinc-binding domain. The encoded protein is a transcription factor important for control of differentiation and development of neural and lymphoid cells. It is also key in development of renal and urogenital systems and is required for normal organogenesis.[2] A similar protein in mice is an essential regulator of the vertebrate head organizer.[1]

Function

The Lim gene family is a subfamily of homeobox genes.[3] The homeobox genes are essential in organizing the body plan of an organism and all contain the same conserved homeodomain of amino acids.[4] Evidence that Lim-1 is essential to a developing organism is its conservation throughout evolution and presence in a variety of organisms.[3] The Lim-1 gene encodes a transcription factor which binds to the DNA of specific genes and functions to produce the needed gene product for development of the organism.[5] Lim-1 is important during early molecular development and is required in both primitive streak-derived tissue and visceral endoderm of the early embryo for development of a head.[6] Studies done using mutant organisms without the Lim gene results in organisms that develop no head structure at all support the essential role of the Lim-1 gene in formation of the head.[7] This gene has also been shown to play a crucial role in the formation of the female reproductive tract.[5] The gene is expressed in the developing Müllerian duct of females, and when the gene is knocked out no reproductive tract forms.[5] Recent studies have shown that Lim-1 mutations may be one cause of the Mayer-Rokitansky-Küster-Hauser (MRKH) syndrome.[8] MRKH is characterized by defective development, or absence, of the uterus and upper part of the vagina in women with normal ovaries and karyotype.[8]

Lim-1’s expression is controlled in part by the sonic hedgehog-Gli signaling pathway.[2] Recent studies in mice have shown that Lim-1 silencing halts tumor growth and impairs tumor cell movement via inhibition of protein expression involved in metastatic spread.[2] Therefore, in tumor cells Lim-1 acts as an oncogene.[2] Thus, targeting Lim-1 can be a potential cancer therapy. In addition, Lim-1 is important in rodent renal development.[9] Lim-1 deficiency results in development of multicystic kidney, whereas, its expression can contribute to pathogenesis of nephroblastomas.[9] Also, Lim-1 plays a role in embryonic retinal development.[10] Lim-1 expression affects differentiation and maintenance of horizontal cells located in the retinal, thus, it could serve as a marker in studies of horizontal cell specification.[10]

Lim-1 (Lhx1) functions as a transcription factor necessary for regulating the production of coupling factors required for proper communication between the neurons located in the part of the brain responsible for regulation of circadian rhythms called the suprachiasmatic nucleus (SCN).[11] In mouse studies where Lim-1 transcription was restricted at some point during development in utero, the individual units within the subject’s molecular clock functioned properly but were unable to work together.[11] Communication of these units is required to match their release of clock proteins which begin a transcription cascade of many other proteins that produce functional responses in tissues.[11] The cyclic pattern of these responses is due to the feedback of the clock proteins and consequent changes to this transcription cascade.[11] Reduced Lim-1 expression leads to inadequate levels of proteins such as Vasoactive Intestinal Polypeptide (VIP) that work to produce the neuron coordination required for a regulated circadian rhythm.[11] The lack of such coupling factors causes the circadian clock to not function properly because the units within the SCN cannot match their release of clock proteins, and therefore their transcriptional cascades of proteins that cause changes in arousal do not align.[11]

References

  1. 1.0 1.1 "Entrez Gene: LHX1 LIM homeobox 1".
  2. 2.0 2.1 2.2 2.3 Dormoy, V.; et al. (2011). "LIM-class homeobox gene Lim1, a novel oncogene in human renal cell carcinoma". Oncogene. 30 (15): 1753–1763. doi:10.1038/onc.2010.557. PMID 21132009.
  3. 3.0 3.1 Hobert, Oliver; Heiner Westphal (February 2000). "Functions of LIM-homeobox genes". Trends in Genetics. 16 (2): 75–83. doi:10.1016/S0168-9525(99)01883-1. Retrieved 2012-03-29.
  4. Carlson BM (2009). Human Embryology and Developmental Biology. Philadelphia, PA: Mosby Elsevier. pp. 67–70. ISBN 978-0-323-05385-3.
  5. 5.0 5.1 5.2 Kobayashi A, Shawlot W, Kania A, Behringer RR (Feb 2004). "Requirement of Lim1 for female reproductive tract development". Development. 131 (3): 539–49. doi:10.1242/dev.00951. PMID 14695376.
  6. Shawlot W, Wakamiya M, Kwan KM, Kania A, Jessell TM, Behringer RR (Nov 1999). "Lim1 is required in both primitive streak-derived tissues and visceral endoderm for head formation in the mouse". Development. 126 (22): 4925–32. PMID 10529411.
  7. Bally-Cuif L, Boncinelli E (Feb 1997). "Transcription factors and head formation in vertebrates". BioEssays. 19 (2): 127–35. doi:10.1002/bies.950190207. PMID 9046242.
  8. 8.0 8.1 Ledig S, Brucker S, Barresi G, Schomburg J, Rall K, Wieacker P (Sep 2012). "Frame shift mutation of LHX1 is associated with Mayer-Rokitansky-Kuster-Hauser (MRKH) syndrome". Human Reproduction. 27 (9): 2872–5. doi:10.1093/humrep/des206. PMID 22740494.
  9. 9.0 9.1 Guertl B, Senanayake U, Nusshold E, Leuschner I, Mannweiler S, Ebner B, Hoefler G (2011). "Lim1, an embryonal transcription factor, is absent in multicystic renal dysplasia, but reactivated in nephroblastomas". Pathobiology. 78 (4): 210–9. doi:10.1159/000326769. PMID 21778788.
  10. 10.0 10.1 Liu W, Wang JH, Xiang M (Mar 2000). "Specific expression of the LIM/homeodomain protein Lim-1 in horizontal cells during retinogenesis". Developmental Dynamics. 217 (3): 320–5. doi:10.1002/(SICI)1097-0177(200003)217:3<320::AID-DVDY10>3.0.CO;2-F. PMID 10741426.
  11. 11.0 11.1 11.2 11.3 11.4 11.5 Hatori M, Gill S, Mure LS, Goulding M, O'Leary DD, Panda S (Jul 2014). "Lhx1 maintains synchrony among circadian oscillator neurons of the SCN". eLife. doi:10.7554/eLife.03357.

Further reading

  • Shawlot W, Behringer RR (Mar 1995). "Requirement for Lim1 in head-organizer function". Nature. 374 (6521): 425–30. doi:10.1038/374425a0. PMID 7700351.
  • Bozzi F, Bertuzzi S, Strina D, Giannetto C, Vezzoni P, Villa A (Dec 1996). "The exon-intron structure of human LHX1 gene". Biochemical and Biophysical Research Communications. 229 (2): 494–7. doi:10.1006/bbrc.1996.1832. PMID 8954926.
  • Dong WF, Heng HH, Lowsky R, Xu Y, DeCoteau JF, Shi XM, Tsui LC, Minden MD (Jun 1997). "Cloning, expression, and chromosomal localization to 11p12-13 of a human LIM/HOMEOBOX gene, hLim-1". DNA and Cell Biology. 16 (6): 671–8. doi:10.1089/dna.1997.16.671. PMID 9212161.
  • Jurata LW, Pfaff SL, Gill GN (Feb 1998). "The nuclear LIM domain interactor NLI mediates homo- and heterodimerization of LIM domain transcription factors". The Journal of Biological Chemistry. 273 (6): 3152–7. doi:10.1074/jbc.273.6.3152. PMID 9452425.
  • Ostendorff HP, Peirano RI, Peters MA, Schlüter A, Bossenz M, Scheffner M, Bach I (Mar 2002). "Ubiquitination-dependent cofactor exchange on LIM homeodomain transcription factors". Nature. 416 (6876): 99–103. doi:10.1038/416099a. PMID 11882901.
  • Phillips JC (2003). "Assignment of LHX1 to human chromosome bands 17q11.2-->q12 by use of radiation hybrid mapping and somatic cell hybridization". Cytogenetic and Genome Research. 97 (1–2): 140D. doi:10.1159/000064048. PMID 12438757.