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Wikipedia

GADD45G

December 18, 2023

Growth arrest and DNA-damage-inducible protein GADD45 gamma is a protein that in humans is encoded by the GADD45G gene on chromosome 9. GADD45G is also known as CR6, DDIT2, GRP17, OIG37, and GADD45gamma.[5] GADD45G is involved in several different processes, including sexual development,[6] human-specific brain development,[7] tumor suppression,[8] and the cellular stress response.[9] GADD45G interacts with several other proteins that are involved in DNA repair, cell cycle control, apoptosis, and senescence.[6] Low expression of GADD45G has been associated with many types of cancer.[10]

GADD45G
Available structures
PDBOrtholog search: PDBe RCSB
Identifiers
AliasesGADD45G, CR6, DDIT2, GADD45gamma, GRP17, growth arrest and DNA damage inducible gamma
External IDsOMIM: 604949 MGI: 1346325 HomoloGene: 21334 GeneCards: GADD45G
Orthologs
SpeciesHumanMouse
Entrez

10912

23882

Ensembl

ENSG00000130222

ENSMUSG00000021453

UniProt

O95257

Q9Z111
Q9R0S0

RefSeq (mRNA)

NM_006705

NM_011817

RefSeq (protein)

NP_006696

NP_035947

Location (UCSC)Chr 9: 89.61 – 89.61 MbChr 13: 52 – 52 Mb
PubMed search[3][4]
Wikidata
View/Edit HumanView/Edit Mouse

History edit

GADD45G was originally cloned by Beadling under the name CR6 in 1993. In this experiment, several genes including GADD45G were noted for being induced by IL-2, and they were identified as immediate early response genes in T lymphocytes.[11] Its role as a tumor suppressor was discovered in 1999 by Zhang.[12] It received the name OIG37 from Nakayama due to its regulation by Oncostatin M, which was found to be able to inhibit growth.[13] Finally, it also became known as Gadd-related protein 17 during its isolation from a cDNA library by Suzuki due to its homology with Gadd45.[5]

Structure and function edit

GADD45G is a member of a group of genes whose transcript levels are increased following stressful growth arrest conditions and treatment with DNA-damaging agents. The protein encoded by this gene responds to environmental stresses by mediating activation of the p38/JNK pathway via MTK1/MEKK4 kinase.[14] GADD45G is in turn regulated upstream by NF-κB.[8]

The crystal structure of GADD45G reveals a dimer made of four parallel helices. The central region contains a highly acidic patch where it allows for interaction with cdc2, PCNA, and p21. The parallel isoform of GADD45G is the active form.[15]

This gene plays a role in cell cycle regulation. GADD45G prevents the kinase ability of the cyclin b1/Cdk1 complex in a fashion that does not break apart the complex. It plays a role in the activation of the S and G2/M checkpoints.[16]

In the male sexual development pathway, GADD45G is essential for activating SRY, leading to proper formation of the gonads and sex-determination. This could occur through GADD45G interaction with the p38 MAPK signaling pathway.[6]

Deletion of an enhancer close to the GADD45G gene is correlated to increased proliferation of neuronal cells, which could account for part of the difference in neural development between humans and other species.[7] The deletion of the enhancer reduces the expression of the gene in the forebrain allowing for more brain growth in humans.[17]

GADD45G is involved with dental epithelial cell proliferation. GADD45G is expressed in enamel knots, where it regulates gene expression and cell growth. The gene modulates p21-mediated epithelial cell proliferation by activating the p38 MAPK pathway during the development of teeth.[18]

There is differential expression of the Xenopus homolog of GADD45G in embryonic development. It plays a large role in neural and brain development with GADD45A. GADD45G and GADD45A knockdowns are related to improper gastrulation, defective head growth, and shorter axes. GADD45G and GADD45A act redundantly to control cell growth, allow the cells to move from pluripotency helping cells differentiate.[19]

Memory edit

During a learning experience, a set of genes is rapidly expressed in the brain. This induced gene expression is thought to be important for processing the information being learned. Such genes are known as immediate early genes. Within the prelimbic prefrontal cortex, the GADD45G gene is immediately expressed and is required for the consolidation of a type of learning in mice termed associative fear memory.[20] In general, gene expression often can be epigenetically induced by demethylation of 5-methylcytosine(s) in gene promoter regions. The GADD45G protein functions in repair of DNA damage. GADD45G may also be involved in recognition of 5-methylcytosine as an alteration in DNA that needs to be repaired to allow induction of learning-related genes. Thus GADD45G may guide the rapid demethylation of methylcytosine in the promoter regions of learning-related genes by a DNA repair process[20](see also Epigenetics in learning and memory).

Interactions edit

GADD45G carries out its many previously stated functions with many different interactions. GADD45G was found to inhibit Cdk1 kinase activity, which would cause disruption of cell growth.[16] It also interacts with CRIF, which causes the inhibition of Cdc2-cyclin B1 and Cdk-cyclin E.[21] GADD45 also works with the cyclin-dependent kinase inhibitor p21, which can cause growth arrest as well.[22] GADD45G is found to be involved with the p38 MAPK pathway through interactions with MAP3K4, which can be important in sex-determination.[23] Additionally, GADD45G regulates DNA replication and repair through its interactions with PCNA.[13][22]

Tissue distribution edit

In humans, GADD45G is expressed most in the skeletal muscle, kidney and liver. This gene has a low expression in the heart, brain, spleen, lung and testis.[8] GADD45G is highly expressed in the placenta.[24]

In the embryonic mouse, Gadd45g is expressed in the neural tube, cranial and dorsal root ganglia and the dorsal midbrain.[25]

Mammalian renal inner medullary (IM) cells routinely face and resist hypertonic stress. Such stress causes DNA damage to which IM cells respond with cell cycle arrest. All three GADD45 isoforms GADD45A, GADD45B, and GADD45G are induced by acute hypertonicity in murine IM cells. Maximum induction occurs 16-18 h after the onset of hypertonicity. GADD45G is induced more strongly (7-fold) than GADD45B (3-fold) and GADD45A (2-fold). Hypertonicity of various forms (NaCl, KCl, sorbitol, or mannitol) always induces GADD45 transcripts, whereas non-hypertonic hyperosmolality (urea) has no effect. Actinomycin D does not prevent hypertonic GADD45 induction, indicating that mRNA stabilization is the mechanism that mediates this induction.[26]

Clinical significance edit

In numerous kinds of cancerous cells, GADD45G is down regulated.[10] There is a low expression due to methylation of the GADD45G promoter.[18] This low expression can also be explained by increased NF-κB activation.[27]

GADD45G methylation is seen in many cancers. In esophageal cancer the expression level and methylation status of the gene are involved in the prognosis of esophageal squamous cell carcinoma. Demethylation of the gene can have some beneficial effects.[18] Similar circumstances are seen in gastric cardio adenocarcinomas where GADD45G is silenced.[28] GADD45G methylation levels are also measured in the diagnosis of pancreatic and colorectal cancers.[29]

In the pituitary gland, GADD45G is a growth suppressor. There is a loss of expression of the gene in many pituitary cancerous masses.[30] The gene plays a role in prostate cancer as a tumor suppressor as well. In these cancerous cells, Vitamin D can induce the expression of GADD45G.[31] GADD45G could possibly be a target of therapeutic benefit for prostate cancer.[32]

In cancerous liver cells, GADD45G is down regulated. It participates in negatively regulating the JAK-STAT3 signaling pathway. It acts as a tumor suppressor in HCC cells by promoting cell death or growth arrest. When GADD45G expression is low, liver cells may be able to bypass the growth arrest stage, leading to cancerous cells.[10]

The presence of GADD45G in the urinary system is also related to renal disease. The renal cells expressing the gene were damaged.[33]

The upregulation of Gadd45g due to hormones may account for the changes in the mouse uterus.[34]

See also edit

References edit

  1. ^ a b c GRCh38: Ensembl release 89: ENSG00000130222 - Ensembl, May 2017
  2. ^ a b c GRCm38: Ensembl release 89: ENSMUSG00000021453 - Ensembl, May 2017
  3. ^ "Human PubMed Reference:". National Center for Biotechnology Information, U.S. National Library of Medicine.
  4. ^ "Mouse PubMed Reference:". National Center for Biotechnology Information, U.S. National Library of Medicine.
  5. ^ a b Suzuki M, Watanabe TK, Fujiwara T, Takahashi E, Tanigami A (Oct 1999). "Molecular cloning, expression, and mapping of a novel human cDNA, GRP17, highly homologous to human gadd45 and murine MyD118". J Hum Genet. 44 (5): 300–3. doi:10.1007/s100380050164. PMID 10496071.
  6. ^ a b c Johnen H, González-Silva L, Carramolino L, Flores JM, Torres M, Salvador JM (2013). "Gadd45g is essential for primary sex determination, male fertility and testis development". PLOS ONE. 8 (3): e58751. Bibcode:2013PLoSO...858751J. doi:10.1371/journal.pone.0058751. PMC 3596291. PMID 23516551.
  7. ^ a b McLean CY, Reno PL, Pollen AA, Bassan AI, Capellini TD, Guenther C, Indjeian VB, Lim X, Menke DB, Schaar BT, Wenger AM, Bejerano G, Kingsley DM (March 2011). "Human-specific loss of regulatory DNA and the evolution of human-specific traits". Nature. 471 (7337): 216–9. Bibcode:2011Natur.471..216M. doi:10.1038/nature09774. PMC 3071156. PMID 21390129.
  8. ^ a b c Tamura RE, de Vasconcellos JF, Sarkar D, Libermann TA, Fisher PB, Zerbini LF (June 2012). "GADD45 proteins: central players in tumorigenesis". Curr. Mol. Med. 12 (5): 634–51. doi:10.2174/156652412800619978. PMC 3797964. PMID 22515981.
  9. ^ Liebermann DA, Hoffman B (2007). "Gadd45 in the response of hematopoietic cells to genotoxic stress". Blood Cells Mol. Dis. 39 (3): 329–35. doi:10.1016/j.bcmd.2007.06.006. PMC 3268059. PMID 17659913.
  10. ^ a b c Zhang L, Yang Z, Ma A, Qu Y, Xia S, Xu D, Ge C, Qiu B, Xia Q, Li J, Liu Y (January 2014). "Growth arrest and DNA damage 45G down-regulation contributes to Janus kinase/signal transducer and activator of transcription 3 activation and cellular senescence evasion in hepatocellular carcinoma". Hepatology. 59 (1): 178–89. doi:10.1002/hep.26628. PMID 23897841. S2CID 39582166.
  11. ^ Beadling C, Johnson KW, Smith KA (April 1993). "Isolation of interleukin 2-induced immediate-early genes". Proc. Natl. Acad. Sci. U.S.A. 90 (7): 2719–23. Bibcode:1993PNAS...90.2719B. doi:10.1073/pnas.90.7.2719. PMC 46167. PMID 7681987.
  12. ^ Zhang W, Bae I, Krishnaraju K, Azam N, Fan W, Smith K, Hoffman B, Liebermann DA (September 1999). "CR6: A third member in the MyD118 and Gadd45 gene family which functions in negative growth control". Oncogene. 18 (35): 4899–907. doi:10.1038/sj.onc.1202885. PMID 10490824.
  13. ^ a b Nakayama K, Hara T, Hibi M, Hirano T, Miyajima A (August 1999). "A novel oncostatin M-inducible gene OIG37 forms a gene family with MyD118 and GADD45 and negatively regulates cell growth". J. Biol. Chem. 274 (35): 24766–72. doi:10.1074/jbc.274.35.24766. PMID 10455148.
  14. ^ Takekawa M, Saito H (Dec 1998). "A family of stress-inducible GADD45-like proteins mediate activation of the stress-responsive MTK1/MEKK4 MAPKKK". Cell. 95 (4): 521–30. doi:10.1016/S0092-8674(00)81619-0. PMID 9827804. S2CID 18980341.
  15. ^ Zhang W, Fu S, Liu X, Zhao X, Zhang W, Peng W, Wu C, Li Y, Li X, Bartlam M, Zeng ZH, Zhan Q, Rao Z (2011). "Crystal structure of human Gadd45γ [corrected] reveals an active dimer". Protein Cell. 2 (10): 814–26. doi:10.1007/s13238-011-1090-6. PMC 4875293. PMID 22058036.
  16. ^ a b Vairapandi M, Balliet AG, Hoffman B, Liebermann DA (2002). "GADD45b and GADD45g are cdc2/cyclinB1 kinase inhibitors with a role in S and G2/M cell cycle checkpoints induced by genotoxic stress". J. Cell. Physiol. 192 (3): 327–38. doi:10.1002/jcp.10140. PMID 12124778. S2CID 19138273.
  17. ^ Iskow RC, Gokcumen O, Lee C (2012). "Exploring the role of copy number variants in human adaptation". Trends in Genetics. 28 (6): 245–257. doi:10.1016/j.tig.2012.03.002. ISSN 0168-9525. PMC 3533238. PMID 22483647.
  18. ^ a b c Ishida K, Yuge Y, Hanaoka M, Yasukawa M, Minami Y, Ogawa M, Masumoto KH, Shigeyoshi Y, Saito M, Tsuji T (August 2013). "Gadd45g regulates dental epithelial cell proliferation through p38 MAPK-mediated p21 expression". Genes Cells. 18 (8): 660–71. doi:10.1111/gtc.12067. PMID 23751077. S2CID 23664498.
  19. ^ Kaufmann LT, Niehrs C (2011). "Gadd45a and Gadd45g regulate neural development and exit from pluripotency in Xenopus". Mechanisms of Development. 128 (7–10): 401–411. doi:10.1016/j.mod.2011.08.002. ISSN 0925-4773. PMID 21854844.
  20. ^ a b Li X, Marshall PR, Leighton LJ, Zajaczkowski EL, Wang Z, Madugalle SU, et al. (February 2019). "The DNA Repair-Associated Protein Gadd45γ Regulates the Temporal Coding of Immediate Early Gene Expression within the Prelimbic Prefrontal Cortex and Is Required for the Consolidation of Associative Fear Memory". The Journal of Neuroscience. 39 (6): 970–983. doi:10.1523/JNEUROSCI.2024-18.2018. PMC 6363930. PMID 30545945.
  21. ^ Chung HK, Yi YW, Jung NC, Kim D, Suh JM, Kim H, Park KC, Song JH, Kim DW, Hwang ES, Yoon SH, Bae YS, Kim JM, Bae I, Shong M (July 2003). "CR6-interacting factor 1 interacts with Gadd45 family proteins and modulates the cell cycle". J. Biol. Chem. 278 (30): 28079–88. doi:10.1074/jbc.M212835200. PMID 12716909.
  22. ^ a b Azam N, Vairapandi M, Zhang W, Hoffman B, Liebermann DA (Jan 2001). "Interaction of CR6 (GADD45gamma ) with proliferating cell nuclear antigen impedes negative growth control". J. Biol. Chem. 276 (4): 2766–74. doi:10.1074/jbc.M005626200. PMID 11022036.
  23. ^ Warr N, Carre GA, Siggers P, Faleato JV, Brixey R, Pope M, Bogani D, Childers M, Wells S, Scudamore CL, Tedesco M, del Barco Barrantes I, Nebreda AR, Trainor PA, Greenfield A (November 2012). "Gadd45γ and Map3k4 interactions regulate mouse testis determination via p38 MAPK-mediated control of Sry expression". Dev. Cell. 23 (5): 1020–31. doi:10.1016/j.devcel.2012.09.016. PMC 3526779. PMID 23102580.
  24. ^ "Entrez Gene: GADD45G growth arrest and DNA-damage-inducible, gamma".
  25. ^ Kaufmann LT, Gierl MS, Niehrs C (2011). "Gadd45a, Gadd45b and Gadd45g expression during mouse embryonic development". Gene Expression Patterns. 11 (8): 465–470. doi:10.1016/j.gep.2011.07.005. ISSN 1567-133X. PMID 21843656.
  26. ^ Chakravarty D, Cai Q, Ferraris JD, Michea L, Burg MB, Kültz D (November 2002). "Three GADD45 isoforms contribute to hypertonic stress phenotype of murine renal inner medullary cells". American Journal of Physiology. Renal Physiology. 283 (5): F1020–9. doi:10.1152/ajprenal.00118.2002. PMID 12372778.
  27. ^ Liebermann DA, Tront JS, Sha X, Mukherjee K, Mohamed-Hadley A, Hoffman B (2011). "Gadd45 stress sensors in malignancy and leukemia". Crit Rev Oncog. 16 (1–2): 129–40. doi:10.1615/critrevoncog.v16.i1-2.120. PMC 3268054. PMID 22150313.
  28. ^ Guo W, Dong Z, Guo Y, Chen Z, Kuang G, Yang Z (2013). "Methylation-mediated repression of GADD45A and GADD45G expression in gastric cardia adenocarcinoma". International Journal of Cancer. 133 (9): 2043–2053. doi:10.1002/ijc.28223. ISSN 0020-7136. PMID 23616123. S2CID 36324243.
  29. ^ Zhang W, Li T, Shao Y, Zhang C, Wu Q, Yang H, Zhang J, Guan M, Yu B, Wan J (August 2010). "Semi-quantitative detection of GADD45-gamma methylation levels in gastric, colorectal and pancreatic cancers using methylation-sensitive high-resolution melting analysis". J. Cancer Res. Clin. Oncol. 136 (8): 1267–73. doi:10.1007/s00432-010-0777-z. PMID 20111973. S2CID 37780631.
  30. ^ Zhang X, Sun H, Danila DC, Johnson SR, Zhou Y, Swearingen B, Klibanski A (2002). "Loss of expression of GADD45 gamma, a growth inhibitory gene, in human pituitary adenomas: implications for tumorigenesis". J Clin Endocrinol Metab. 87 (3): 1262–7. doi:10.1210/jcem.87.3.8315. PMID 11889197.
  31. ^ Flores O, Burnstein KL (2010). "GADD45gamma: a new vitamin D-regulated gene that is antiproliferative in prostate cancer cells". Endocrinology. 151 (10): 4654–64. doi:10.1210/en.2010-0434. PMC 2946153. PMID 20739400.
  32. ^ Liebermann DA, Hoffman B (October 2011). "Prostate cancer: JunD, Gadd45a and Gadd45g as therapeutic targets". Cell Cycle. 10 (20): 3428. doi:10.4161/cc.10.20.17528. PMID 22030693.
  33. ^ Yu S, Cho J, Park I, Kim SJ, Kim H, Shin GT (2009). "Urinary GADD45gamma expression is associated with progression of lgA nephropathy". Am J Nephrol. 30 (2): 135–9. doi:10.1159/000209317. PMID 19293565. S2CID 46326535.
  34. ^ Ivanga M, Labrie Y, Calvo E, Belleau P, Martel C, Pelletier G, Morissette J, Labrie F, Durocher F (2009). "Fine temporal analysis of DHT transcriptional modulation of the ATM/Gadd45g signaling pathways in the mouse uterus". Molecular Reproduction and Development. 76 (3): 278–288. doi:10.1002/mrd.20949. ISSN 1040-452X. PMID 18671277. S2CID 9149501.

Further reading edit

  • Fan W, Richter G, Cereseto A, Beadling C, Smith KA (2000). "Cytokine response gene 6 induces p21 and regulates both cell growth and arrest". Oncogene. 18 (47): 6573–82. doi:10.1038/sj.onc.1203054. PMID 10597261.
  • Gong R, Yu L, Zhang H, Tu Q, Zhao Y, Yang J, Xu Y, Zhao S (2000). "Assignment of human GADD45G to chromosome 9q22.1→q22.3 by radiation hybrid mapping". Cytogenet. Cell Genet. 88 (1–2): 95–6. doi:10.1159/000015496. PMID 10773677. S2CID 45495955.
  • Yi YW, Kim D, Jung N, Hong SS, Lee HS, Bae I (2000). "Gadd45 family proteins are coactivators of nuclear hormone receptors". Biochem. Biophys. Res. Commun. 272 (1): 193–8. doi:10.1006/bbrc.2000.2760. PMID 10872826.
  • Yang Q, Manicone A, Coursen JD, Linke SP, Nagashima M, Forgues M, Wang XW (2001). "Identification of a functional domain in a GADD45-mediated G2/M checkpoint". J. Biol. Chem. 275 (47): 36892–8. doi:10.1074/jbc.M005319200. PMID 10973963.
  • Wan Y, Wang Z, Shao Y, Xu Y, Voorhees J, Fisher G (2001). "UV-induced expression of GADD45 is mediated by an oxidant sensitive pathway in cultured human keratinocytes and in human skin in vivo". Int. J. Mol. Med. 6 (6): 683–8. doi:10.3892/ijmm.6.6.683. PMID 11078829.
  • Kovalsky O, Lung FD, Roller PP, Fornace AJ (2001). "Oligomerization of human Gadd45a protein". J. Biol. Chem. 276 (42): 39330–9. doi:10.1074/jbc.M105115200. PMID 11498536.
  • Sun L, Gong R, Wan B, Huang X, Wu C, Zhang X, Zhao S, Yu L (2004). "GADD45gamma, down-regulated in 65% hepatocellular carcinoma (HCC) from 23 Chinese patients, inhibits cell growth and induces cell cycle G2/M arrest for hepatoma Hep-G2 cell lines". Mol. Biol. Rep. 30 (4): 249–53. doi:10.1023/A:1026370726763. PMID 14672412. S2CID 33065335.
  • Jiang F, Wang Z (2004). "Gadd45gamma is androgen-responsive and growth-inhibitory in prostate cancer cells". Mol. Cell. Endocrinol. 213 (2): 121–9. doi:10.1016/j.mce.2003.10.050. PMID 15062559. S2CID 54408868.
  • Zerbini LF, Wang Y, Czibere A, Correa RG, Cho JY, Ijiri K, Wei W, Joseph M, Gu X, Grall F, Goldring MB, Zhou JR, Libermann TA, Zhou JR (2004). "NF-kappa B-mediated repression of growth arrest- and DNA-damage-inducible proteins 45alpha and gamma is essential for cancer cell survival". Proc. Natl. Acad. Sci. U.S.A. 101 (37): 13618–23. Bibcode:2004PNAS..10113618Z. doi:10.1073/pnas.0402069101. PMC 518803. PMID 15353598.
  • Goehler H, Lalowski M, Stelzl U, Waelter S, Stroedicke M, Worm U, Droege A, Lindenberg KS, Knoblich M, Haenig C, Herbst M, Suopanki J, Scherzinger E, Abraham C, Bauer B, Hasenbank R, Fritzsche A, Ludewig AH, Büssow K, Buessow K, Coleman SH, Gutekunst CA, Landwehrmeyer BG, Lehrach H, Wanker EE (2004). "A protein interaction network links GIT1, an enhancer of huntingtin aggregation, to Huntington's disease". Mol. Cell. 15 (6): 853–65. doi:10.1016/j.molcel.2004.09.016. PMID 15383276.

December 18, 2023
gadd45g, growth, arrest, damage, inducible, protein, gadd45, gamma, protein, that, humans, encoded, gene, chromosome, also, known, ddit2, grp17, oig37, gadd45gamma, involved, several, different, processes, including, sexual, development, human, specific, brain. Growth arrest and DNA damage inducible protein GADD45 gamma is a protein that in humans is encoded by the GADD45G gene on chromosome 9 GADD45G is also known as CR6 DDIT2 GRP17 OIG37 and GADD45gamma 5 GADD45G is involved in several different processes including sexual development 6 human specific brain development 7 tumor suppression 8 and the cellular stress response 9 GADD45G interacts with several other proteins that are involved in DNA repair cell cycle control apoptosis and senescence 6 Low expression of GADD45G has been associated with many types of cancer 10 GADD45GAvailable structuresPDBOrtholog search PDBe RCSBList of PDB id codes2WAL 3FFMIdentifiersAliasesGADD45G CR6 DDIT2 GADD45gamma GRP17 growth arrest and DNA damage inducible gammaExternal IDsOMIM 604949 MGI 1346325 HomoloGene 21334 GeneCards GADD45GGene location Human Chr Chromosome 9 human 1 Band9q22 2Start89 605 012 bp 1 End89 606 555 bp 1 Gene location Mouse Chr Chromosome 13 mouse 2 Band13 13 A5Start52 000 714 bp 2 End52 002 504 bp 2 RNA expression patternBgeeHumanMouse ortholog Top expressed ingastric mucosaright lobe of liverpopliteal arterycanal of the cervixgastrocnemius muscleanterior pituitaryganglionic eminencebody of pancreasleft ventriclebody of stomachTop expressed insacculeislet of Langerhanssternocleidomastoid muscledigastric muscletemporal muscleleft lobe of livertriceps brachii muscleseminal vesiculacervixcalvariaMore reference expression dataBioGPSMore reference expression dataGene ontologyMolecular functionprotein bindingCellular componentnucleus cytoplasmBiological processpositive regulation of JNK cascade multicellular organism development positive regulation of apoptotic process response to stress cell differentiation positive regulation of p38MAPK cascade apoptotic process regulation of cell cycle positive regulation of cold induced thermogenesisSources Amigo QuickGOOrthologsSpeciesHumanMouseEntrez1091223882EnsemblENSG00000130222ENSMUSG00000021453UniProtO95257Q9Z111Q9R0S0RefSeq mRNA NM 006705NM 011817RefSeq protein NP 006696NP 035947Location UCSC Chr 9 89 61 89 61 MbChr 13 52 52 MbPubMed search 3 4 WikidataView Edit HumanView Edit Mouse Contents 1 History 2 Structure and function 2 1 Memory 3 Interactions 4 Tissue distribution 5 Clinical significance 6 See also 7 References 8 Further readingHistory editGADD45G was originally cloned by Beadling under the name CR6 in 1993 In this experiment several genes including GADD45G were noted for being induced by IL 2 and they were identified as immediate early response genes in T lymphocytes 11 Its role as a tumor suppressor was discovered in 1999 by Zhang 12 It received the name OIG37 from Nakayama due to its regulation by Oncostatin M which was found to be able to inhibit growth 13 Finally it also became known as Gadd related protein 17 during its isolation from a cDNA library by Suzuki due to its homology with Gadd45 5 Structure and function editGADD45G is a member of a group of genes whose transcript levels are increased following stressful growth arrest conditions and treatment with DNA damaging agents The protein encoded by this gene responds to environmental stresses by mediating activation of the p38 JNK pathway via MTK1 MEKK4 kinase 14 GADD45G is in turn regulated upstream by NF kB 8 The crystal structure of GADD45G reveals a dimer made of four parallel helices The central region contains a highly acidic patch where it allows for interaction with cdc2 PCNA and p21 The parallel isoform of GADD45G is the active form 15 This gene plays a role in cell cycle regulation GADD45G prevents the kinase ability of the cyclin b1 Cdk1 complex in a fashion that does not break apart the complex It plays a role in the activation of the S and G2 M checkpoints 16 In the male sexual development pathway GADD45G is essential for activating SRY leading to proper formation of the gonads and sex determination This could occur through GADD45G interaction with the p38 MAPK signaling pathway 6 Deletion of an enhancer close to the GADD45G gene is correlated to increased proliferation of neuronal cells which could account for part of the difference in neural development between humans and other species 7 The deletion of the enhancer reduces the expression of the gene in the forebrain allowing for more brain growth in humans 17 GADD45G is involved with dental epithelial cell proliferation GADD45G is expressed in enamel knots where it regulates gene expression and cell growth The gene modulates p21 mediated epithelial cell proliferation by activating the p38 MAPK pathway during the development of teeth 18 There is differential expression of the Xenopus homolog of GADD45G in embryonic development It plays a large role in neural and brain development with GADD45A GADD45G and GADD45A knockdowns are related to improper gastrulation defective head growth and shorter axes GADD45G and GADD45A act redundantly to control cell growth allow the cells to move from pluripotency helping cells differentiate 19 Memory edit During a learning experience a set of genes is rapidly expressed in the brain This induced gene expression is thought to be important for processing the information being learned Such genes are known as immediate early genes Within the prelimbic prefrontal cortex the GADD45G gene is immediately expressed and is required for the consolidation of a type of learning in mice termed associative fear memory 20 In general gene expression often can be epigenetically induced by demethylation of 5 methylcytosine s in gene promoter regions The GADD45G protein functions in repair of DNA damage GADD45G may also be involved in recognition of 5 methylcytosine as an alteration in DNA that needs to be repaired to allow induction of learning related genes Thus GADD45G may guide the rapid demethylation of methylcytosine in the promoter regions of learning related genes by a DNA repair process 20 see also Epigenetics in learning and memory Interactions editGADD45G carries out its many previously stated functions with many different interactions GADD45G was found to inhibit Cdk1 kinase activity which would cause disruption of cell growth 16 It also interacts with CRIF which causes the inhibition of Cdc2 cyclin B1 and Cdk cyclin E 21 GADD45 also works with the cyclin dependent kinase inhibitor p21 which can cause growth arrest as well 22 GADD45G is found to be involved with the p38 MAPK pathway through interactions with MAP3K4 which can be important in sex determination 23 Additionally GADD45G regulates DNA replication and repair through its interactions with PCNA 13 22 Tissue distribution editIn humans GADD45G is expressed most in the skeletal muscle kidney and liver This gene has a low expression in the heart brain spleen lung and testis 8 GADD45G is highly expressed in the placenta 24 In the embryonic mouse Gadd45g is expressed in the neural tube cranial and dorsal root ganglia and the dorsal midbrain 25 Mammalian renal inner medullary IM cells routinely face and resist hypertonic stress Such stress causes DNA damage to which IM cells respond with cell cycle arrest All three GADD45 isoforms GADD45A GADD45B and GADD45G are induced by acute hypertonicity in murine IM cells Maximum induction occurs 16 18 h after the onset of hypertonicity GADD45G is induced more strongly 7 fold than GADD45B 3 fold and GADD45A 2 fold Hypertonicity of various forms NaCl KCl sorbitol or mannitol always induces GADD45 transcripts whereas non hypertonic hyperosmolality urea has no effect Actinomycin D does not prevent hypertonic GADD45 induction indicating that mRNA stabilization is the mechanism that mediates this induction 26 Clinical significance editIn numerous kinds of cancerous cells GADD45G is down regulated 10 There is a low expression due to methylation of the GADD45G promoter 18 This low expression can also be explained by increased NF kB activation 27 GADD45G methylation is seen in many cancers In esophageal cancer the expression level and methylation status of the gene are involved in the prognosis of esophageal squamous cell carcinoma Demethylation of the gene can have some beneficial effects 18 Similar circumstances are seen in gastric cardio adenocarcinomas where GADD45G is silenced 28 GADD45G methylation levels are also measured in the diagnosis of pancreatic and colorectal cancers 29 In the pituitary gland GADD45G is a growth suppressor There is a loss of expression of the gene in many pituitary cancerous masses 30 The gene plays a role in prostate cancer as a tumor suppressor as well In these cancerous cells Vitamin D can induce the expression of GADD45G 31 GADD45G could possibly be a target of therapeutic benefit for prostate cancer 32 In cancerous liver cells GADD45G is down regulated It participates in negatively regulating the JAK STAT3 signaling pathway It acts as a tumor suppressor in HCC cells by promoting cell death or growth arrest When GADD45G expression is low liver cells may be able to bypass the growth arrest stage leading to cancerous cells 10 The presence of GADD45G in the urinary system is also related to renal disease The renal cells expressing the gene were damaged 33 The upregulation of Gadd45g due to hormones may account for the changes in the mouse uterus 34 See also editGadd45 GADD45A GADD45BReferences edit a b c GRCh38 Ensembl release 89 ENSG00000130222 Ensembl May 2017 a b c GRCm38 Ensembl release 89 ENSMUSG00000021453 Ensembl May 2017 Human PubMed Reference National Center for Biotechnology Information U S National Library of Medicine Mouse PubMed Reference National Center for Biotechnology Information U S National Library of Medicine a b Suzuki M Watanabe TK Fujiwara T Takahashi E Tanigami A Oct 1999 Molecular cloning expression and mapping of a novel human cDNA GRP17 highly homologous to human gadd45 and murine MyD118 J Hum Genet 44 5 300 3 doi 10 1007 s100380050164 PMID 10496071 a b c Johnen H Gonzalez Silva L Carramolino L Flores JM Torres M Salvador JM 2013 Gadd45g is essential for primary sex determination male fertility and testis development PLOS ONE 8 3 e58751 Bibcode 2013PLoSO 858751J doi 10 1371 journal pone 0058751 PMC 3596291 PMID 23516551 a b McLean CY Reno PL Pollen AA Bassan AI Capellini TD Guenther C Indjeian VB Lim X Menke DB Schaar BT Wenger AM Bejerano G Kingsley DM March 2011 Human specific loss of regulatory DNA and the evolution of human specific traits Nature 471 7337 216 9 Bibcode 2011Natur 471 216M doi 10 1038 nature09774 PMC 3071156 PMID 21390129 a b c Tamura RE de Vasconcellos JF Sarkar D Libermann TA Fisher PB Zerbini LF June 2012 GADD45 proteins central players in tumorigenesis Curr Mol Med 12 5 634 51 doi 10 2174 156652412800619978 PMC 3797964 PMID 22515981 Liebermann DA Hoffman B 2007 Gadd45 in the response of hematopoietic cells to genotoxic stress Blood Cells Mol Dis 39 3 329 35 doi 10 1016 j bcmd 2007 06 006 PMC 3268059 PMID 17659913 a b c Zhang L Yang Z Ma A Qu Y Xia S Xu D Ge C Qiu B Xia Q Li J Liu Y January 2014 Growth arrest and DNA damage 45G down regulation contributes to Janus kinase signal transducer and activator of transcription 3 activation and cellular senescence evasion in hepatocellular carcinoma Hepatology 59 1 178 89 doi 10 1002 hep 26628 PMID 23897841 S2CID 39582166 Beadling C Johnson KW Smith KA April 1993 Isolation of interleukin 2 induced immediate early genes Proc Natl Acad Sci U S A 90 7 2719 23 Bibcode 1993PNAS 90 2719B doi 10 1073 pnas 90 7 2719 PMC 46167 PMID 7681987 Zhang W Bae I Krishnaraju K Azam N Fan W Smith K Hoffman B Liebermann DA September 1999 CR6 A third member in the MyD118 and Gadd45 gene family which functions in negative growth control Oncogene 18 35 4899 907 doi 10 1038 sj onc 1202885 PMID 10490824 a b Nakayama K Hara T Hibi M Hirano T Miyajima A August 1999 A novel oncostatin M inducible gene OIG37 forms a gene family with MyD118 and GADD45 and negatively regulates cell growth J Biol Chem 274 35 24766 72 doi 10 1074 jbc 274 35 24766 PMID 10455148 Takekawa M Saito H Dec 1998 A family of stress inducible GADD45 like proteins mediate activation of the stress responsive MTK1 MEKK4 MAPKKK Cell 95 4 521 30 doi 10 1016 S0092 8674 00 81619 0 PMID 9827804 S2CID 18980341 Zhang W Fu S Liu X Zhao X Zhang W Peng W Wu C Li Y Li X Bartlam M Zeng ZH Zhan Q Rao Z 2011 Crystal structure of human Gadd45g corrected reveals an active dimer Protein Cell 2 10 814 26 doi 10 1007 s13238 011 1090 6 PMC 4875293 PMID 22058036 a b Vairapandi M Balliet AG Hoffman B Liebermann DA 2002 GADD45b and GADD45g are cdc2 cyclinB1 kinase inhibitors with a role in S and G2 M cell cycle checkpoints induced by genotoxic stress J Cell Physiol 192 3 327 38 doi 10 1002 jcp 10140 PMID 12124778 S2CID 19138273 Iskow RC Gokcumen O Lee C 2012 Exploring the role of copy number variants in human adaptation Trends in Genetics 28 6 245 257 doi 10 1016 j tig 2012 03 002 ISSN 0168 9525 PMC 3533238 PMID 22483647 a b c Ishida K Yuge Y Hanaoka M Yasukawa M Minami Y Ogawa M Masumoto KH Shigeyoshi Y Saito M Tsuji T August 2013 Gadd45g regulates dental epithelial cell proliferation through p38 MAPK mediated p21 expression Genes Cells 18 8 660 71 doi 10 1111 gtc 12067 PMID 23751077 S2CID 23664498 Kaufmann LT Niehrs C 2011 Gadd45a and Gadd45g regulate neural development and exit from pluripotency in Xenopus Mechanisms of Development 128 7 10 401 411 doi 10 1016 j mod 2011 08 002 ISSN 0925 4773 PMID 21854844 a b Li X Marshall PR Leighton LJ Zajaczkowski EL Wang Z Madugalle SU et al February 2019 The DNA Repair Associated Protein Gadd45g Regulates the Temporal Coding of Immediate Early Gene Expression within the Prelimbic Prefrontal Cortex and Is Required for the Consolidation of Associative Fear Memory The Journal of Neuroscience 39 6 970 983 doi 10 1523 JNEUROSCI 2024 18 2018 PMC 6363930 PMID 30545945 Chung HK Yi YW Jung NC Kim D Suh JM Kim H Park KC Song JH Kim DW Hwang ES Yoon SH Bae YS Kim JM Bae I Shong M July 2003 CR6 interacting factor 1 interacts with Gadd45 family proteins and modulates the cell cycle J Biol Chem 278 30 28079 88 doi 10 1074 jbc M212835200 PMID 12716909 a b Azam N Vairapandi M Zhang W Hoffman B Liebermann DA Jan 2001 Interaction of CR6 GADD45gamma with proliferating cell nuclear antigen impedes negative growth control J Biol Chem 276 4 2766 74 doi 10 1074 jbc M005626200 PMID 11022036 Warr N Carre GA Siggers P Faleato JV Brixey R Pope M Bogani D Childers M Wells S Scudamore CL Tedesco M del Barco Barrantes I Nebreda AR Trainor PA Greenfield A November 2012 Gadd45g and Map3k4 interactions regulate mouse testis determination via p38 MAPK mediated control of Sry expression Dev Cell 23 5 1020 31 doi 10 1016 j devcel 2012 09 016 PMC 3526779 PMID 23102580 Entrez Gene GADD45G growth arrest and DNA damage inducible gamma Kaufmann LT Gierl MS Niehrs C 2011 Gadd45a Gadd45b and Gadd45g expression during mouse embryonic development Gene Expression Patterns 11 8 465 470 doi 10 1016 j gep 2011 07 005 ISSN 1567 133X PMID 21843656 Chakravarty D Cai Q Ferraris JD Michea L Burg MB Kultz D November 2002 Three GADD45 isoforms contribute to hypertonic stress phenotype of murine renal inner medullary cells American Journal of Physiology Renal Physiology 283 5 F1020 9 doi 10 1152 ajprenal 00118 2002 PMID 12372778 Liebermann DA Tront JS Sha X Mukherjee K Mohamed Hadley A Hoffman B 2011 Gadd45 stress sensors in malignancy and leukemia Crit Rev Oncog 16 1 2 129 40 doi 10 1615 critrevoncog v16 i1 2 120 PMC 3268054 PMID 22150313 Guo W Dong Z Guo Y Chen Z Kuang G Yang Z 2013 Methylation mediated repression of GADD45A and GADD45G expression in gastric cardia adenocarcinoma International Journal of Cancer 133 9 2043 2053 doi 10 1002 ijc 28223 ISSN 0020 7136 PMID 23616123 S2CID 36324243 Zhang W Li T Shao Y Zhang C Wu Q Yang H Zhang J Guan M Yu B Wan J August 2010 Semi quantitative detection of GADD45 gamma methylation levels in gastric colorectal and pancreatic cancers using methylation sensitive high resolution melting analysis J Cancer Res Clin Oncol 136 8 1267 73 doi 10 1007 s00432 010 0777 z PMID 20111973 S2CID 37780631 Zhang X Sun H Danila DC Johnson SR Zhou Y Swearingen B Klibanski A 2002 Loss of expression of GADD45 gamma a growth inhibitory gene in human pituitary adenomas implications for tumorigenesis J Clin Endocrinol Metab 87 3 1262 7 doi 10 1210 jcem 87 3 8315 PMID 11889197 Flores O Burnstein KL 2010 GADD45gamma a new vitamin D regulated gene that is antiproliferative in prostate cancer cells Endocrinology 151 10 4654 64 doi 10 1210 en 2010 0434 PMC 2946153 PMID 20739400 Liebermann DA Hoffman B October 2011 Prostate cancer JunD Gadd45a and Gadd45g as therapeutic targets Cell Cycle 10 20 3428 doi 10 4161 cc 10 20 17528 PMID 22030693 Yu S Cho J Park I Kim SJ Kim H Shin GT 2009 Urinary GADD45gamma expression is associated with progression of lgA nephropathy Am J Nephrol 30 2 135 9 doi 10 1159 000209317 PMID 19293565 S2CID 46326535 Ivanga M Labrie Y Calvo E Belleau P Martel C Pelletier G Morissette J Labrie F Durocher F 2009 Fine temporal analysis of DHT transcriptional modulation of the ATM Gadd45g signaling pathways in the mouse uterus Molecular Reproduction and Development 76 3 278 288 doi 10 1002 mrd 20949 ISSN 1040 452X PMID 18671277 S2CID 9149501 Further reading editFan W Richter G Cereseto A Beadling C Smith KA 2000 Cytokine response gene 6 induces p21 and regulates both cell growth and arrest Oncogene 18 47 6573 82 doi 10 1038 sj onc 1203054 PMID 10597261 Gong R Yu L Zhang H Tu Q Zhao Y Yang J Xu Y Zhao S 2000 Assignment of human GADD45G to chromosome 9q22 1 q22 3 by radiation hybrid mapping Cytogenet Cell Genet 88 1 2 95 6 doi 10 1159 000015496 PMID 10773677 S2CID 45495955 Yi YW Kim D Jung N Hong SS Lee HS Bae I 2000 Gadd45 family proteins are coactivators of nuclear hormone receptors Biochem Biophys Res Commun 272 1 193 8 doi 10 1006 bbrc 2000 2760 PMID 10872826 Yang Q Manicone A Coursen JD Linke SP Nagashima M Forgues M Wang XW 2001 Identification of a functional domain in a GADD45 mediated G2 M checkpoint J Biol Chem 275 47 36892 8 doi 10 1074 jbc M005319200 PMID 10973963 Wan Y Wang Z Shao Y Xu Y Voorhees J Fisher G 2001 UV induced expression of GADD45 is mediated by an oxidant sensitive pathway in cultured human keratinocytes and in human skin in vivo Int J Mol Med 6 6 683 8 doi 10 3892 ijmm 6 6 683 PMID 11078829 Kovalsky O Lung FD Roller PP Fornace AJ 2001 Oligomerization of human Gadd45a protein J Biol Chem 276 42 39330 9 doi 10 1074 jbc M105115200 PMID 11498536 Sun L Gong R Wan B Huang X Wu C Zhang X Zhao S Yu L 2004 GADD45gamma down regulated in 65 hepatocellular carcinoma HCC from 23 Chinese patients inhibits cell growth and induces cell cycle G2 M arrest for hepatoma Hep G2 cell lines Mol Biol Rep 30 4 249 53 doi 10 1023 A 1026370726763 PMID 14672412 S2CID 33065335 Jiang F Wang Z 2004 Gadd45gamma is androgen responsive and growth inhibitory in prostate cancer cells Mol Cell Endocrinol 213 2 121 9 doi 10 1016 j mce 2003 10 050 PMID 15062559 S2CID 54408868 Zerbini LF Wang Y Czibere A Correa RG Cho JY Ijiri K Wei W Joseph M Gu X Grall F Goldring MB Zhou JR Libermann TA Zhou JR 2004 NF kappa B mediated repression of growth arrest and DNA damage inducible proteins 45alpha and gamma is essential for cancer cell survival Proc Natl Acad Sci U S A 101 37 13618 23 Bibcode 2004PNAS 10113618Z doi 10 1073 pnas 0402069101 PMC 518803 PMID 15353598 Goehler H Lalowski M Stelzl U Waelter S Stroedicke M Worm U Droege A Lindenberg KS Knoblich M Haenig C Herbst M Suopanki J Scherzinger E Abraham C Bauer B Hasenbank R Fritzsche A Ludewig AH Bussow K Buessow K Coleman SH Gutekunst CA Landwehrmeyer BG Lehrach H Wanker EE 2004 A protein interaction network links GIT1 an enhancer of huntingtin aggregation to Huntington s disease Mol Cell 15 6 853 65 doi 10 1016 j molcel 2004 09 016 PMID 15383276 Retrieved from https en wikipedia org w index php title GADD45G amp 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