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Insulin-like growth factor 2

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(Redirected from IGF2) Protein hormone
IGF2
Available structures
PDBOrtholog search: PDBe RCSB
List of PDB id codes

3KR3, 1IGL, 2L29, 2V5P, 3E4Z

Identifiers
AliasesIGF2, C11orf43, GRDF, IGF-II, PP9974, insulin like growth factor 2, SRS3
External IDsOMIM: 147470; MGI: 96434; HomoloGene: 510; GeneCards: IGF2; OMA:IGF2 - orthologs
Gene location (Human)
Chromosome 11 (human)
Chr.Chromosome 11 (human)
Chromosome 11 (human)Genomic location for IGF2Genomic location for IGF2
Band11p15.5Start2,129,112 bp
End2,158,391 bp
Gene location (Mouse)
Chromosome 7 (mouse)
Chr.Chromosome 7 (mouse)
Chromosome 7 (mouse)Genomic location for IGF2Genomic location for IGF2
Band7 F5|7 87.99 cMStart142,204,503 bp
End142,220,553 bp
RNA expression pattern
Bgee
HumanMouse (ortholog)
Top expressed in
  • placenta

  • sural nerve

  • stromal cell of endometrium

  • right lobe of liver

  • apex of heart

  • left uterine tube

  • muscle of thigh

  • right uterine tube

  • canal of the cervix

  • left ventricle
Top expressed in
  • extraembryonic membrane

  • yolk sac

  • genital tubercle

  • placenta

  • tail of embryo

  • neural tube

  • dentate gyrus of hippocampal formation granule cell

  • intra-embryonic coelom

  • rhombencephalon

  • Mesencephalon
More reference expression data
BioGPS




More reference expression data
Gene ontology
Molecular function
Cellular component
Biological process
Sources:Amigo / QuickGO
Orthologs
SpeciesHumanMouse
Entrez

3481

16002

Ensembl

ENSG00000167244

ENSMUSG00000048583

UniProt

P01344

P09535

RefSeq (mRNA)

NM_001291862
NM_000612
NM_001007139
NM_001127598
NM_001291861

NM_001122736
NM_001122737
NM_010514
NM_001315488
NM_001315489

RefSeq (protein)

NP_000603
NP_001007140
NP_001121070
NP_001278790
NP_001278791

NP_001116208
NP_001116209
NP_001302417
NP_001302418
NP_034644

Location (UCSC)Chr 11: 2.13 – 2.16 MbChr 7: 142.2 – 142.22 Mb
PubMed search
Wikidata
View/Edit HumanView/Edit Mouse
Insulin-like growth factor II E-peptide (somatomedians-A )
Identifiers
SymbolIGF2_C
PfamPF08365
InterProIPR013576
Available protein structures:
Pfam  structures / ECOD  
PDBRCSB PDB; PDBe; PDBj
PDBsumstructure summary

Insulin-like growth factor 2 (IGF-2) is one of three protein hormones that share structural similarity to insulin. The MeSH definition reads: "A well-characterized neutral peptide believed to be secreted by the liver and to circulate in the blood. It has growth-regulating, insulin-like and mitogenic activities. The growth factor has a major, but not absolute, dependence on somatotropin. It is believed to be a major fetal growth factor in contrast to insulin-like growth factor 1 (IGF-1), which is a major growth factor in adults."

Gene structure

In humans, the IGF2 gene is located on chromosome 11p15.5, a region which contains numerous imprinted genes. In mice this homologous region is found at distal chromosome 7. In both organisms, IGF2 is imprinted, with expression resulting favourably from the paternally inherited allele. However, in some human brain regions a loss of imprinting occurs resulting in both IGF2 and H19 being transcribed from both parental alleles.

The protein CTCF is involved in repressing expression of the gene, by binding to the H19 imprinting control region (ICR) along with Differentially-methylated Region-1 (DMR1) and Matrix Attachment Region −3 (MAR3). These three DNA sequences bind to CTCF in a way that limits downstream enhancer access to the IGF2 region. The mechanism in which CTCF binds to these regions is currently unknown, but could include either a direct DNA-CTCF interaction or it could possibly be mediated by other proteins. In mammals (mice, humans, pigs), only the allele for insulin-like growth factor-2 (IGF2) inherited from one's father is active; that inherited from the mother is not—a phenomenon called imprinting. The mechanism: the mother's allele has an insulator between the IGF2 promoter and enhancer. So does the father's allele, but in his case, the insulator has been methylated. CTCF can no longer bind to the insulator, and so the enhancer is now free to turn on the father's IGF2 promoter.

The canonical isoform of IGF-2 preproprotein (180 amino acids) includes a signal peptide (amino acids 1-24) and a propeptide (amino acids 92-180). Proteolytic processing removes the signal peptide and the propeptide to generate the mature hormone (amino acids 25-91).

Function

The major role of IGF-2 is as a growth promoting hormone during gestation.

IGF-2 exerts its effects by binding to the IGF-1 receptor and to the short isoform of the insulin receptor (IR-A or exon 11-). IGF-2 may also bind to the IGF-2 receptor (also called the cation-independent mannose 6-phosphate receptor), which acts as a signalling antagonist; that is, to prevent IGF-2 responses.

In the process of folliculogenesis, IGF-2 is created by thecal cells to act in an autocrine manner on the theca cells themselves, and in a paracrine manner on granulosa cells in the ovary. IGF-2 promotes granulosa cell proliferation during the follicular phase of the menstrual cycle, acting alongside follicle stimulating hormone (FSH). After ovulation has occurred, IGF-2 promotes progesterone secretion during the luteal phase of the menstrual cycle, together with luteinizing hormone (LH). Thus, IGF-2 acts as a co-hormone together with both FSH and LH.

A study at the Mount Sinai School of Medicine found that IGF-2 may be linked to memory and reproduction. A study at the European Neuroscience Institute-Goettingen (Germany) found that fear extinction-induced IGF-2/IGFBP7 signalling promotes the survival of 17- to 19-day-old newborn hippocampal neurons. This suggests that therapeutic strategies that enhance IGF-2 signalling and adult neurogenesis might be suitable to treat diseases linked to excessive fear memory such as PTSD.

Preptin

Preptin, a 34-aa peptide hormone produced by the pancreas, kidneys, breast tissues, and salivary glands, is derived from proteolytic cleavage of IGF-2 proprotein. The sequence of preptin (amino acids 93-126 of canonical IGF-2 preproprotein) is flanked by an N-terminal arginine (Arg) cleavage site and a C-terminal putative dibasic (Arg-Arg) cleavage motif. Preptin is present in islet beta-cells, undergoes glucose-mediated co-secretion with insulin, and acts as a physiological amplifier of glucose-mediated insulin secretion. It has an anabolic impact on bone growth and exhibits osteogenic properties, increasing osteoblast mitogenic activity through phosphoactivation of MAPK1 and MAPK3. This activity resides within the first 16 amino acids of preptin. Genetic ablation of the preptin-coding region of Igf2 in female mice impairs pancreatic function.

Clinical relevance

IGF-2 is sometimes produced in excess in islet cell tumors and non-islet hypoglycemic cell tumors, causing hypoglycemia. Doege-Potter syndrome is a paraneoplastic syndrome in which hypoglycemia is associated with the presence of one or more non-islet fibrous tumors in the pleural cavity. Loss of imprinting of IGF-2 is a common feature in tumors seen in Beckwith-Wiedemann syndrome. As IGF-2 promotes development of fetal pancreatic beta cells, it is believed to be related to some forms of diabetes mellitus. Preeclampsia induces a decrease in methylation level at IGF-2 demethylated region, and this might be among the mechanisms behind the association between intrauterine exposure to preeclampsia and high risk for metabolic diseases in the later life of the infants. In animals it has been shown that toxins such as PCB (polychlorinated biphenyls) affects IGF II expression.

Interactions

Insulin-like growth factor 2 has been shown to interact with IGFBP3 and transferrin.

See also

References

  1. ^ GRCh38: Ensembl release 89: ENSG00000167244Ensembl, May 2017
  2. ^ GRCm38: Ensembl release 89: ENSMUSG00000048583Ensembl, 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. "Insulin-Like Growth Factor II". MeSH. NCBI.
  6. Pham NV, Nguyen MT, Hu JF, Vu TH, Hoffman AR (Nov 1998). "Dissociation of IGF2 and H19 imprinting in human brain". Brain Research. 810 (1–2): 1–8. doi:10.1016/s0006-8993(98)00783-5. PMID 9813220. S2CID 39228039.
  7. Russell PJ (2009). iGenetics: A Molecular Approach (3rd ed.). Upper Saddle River, N.J.: Pearson Education. p. 533. ISBN 978-0-321-61022-5.
  8. "Insulin-like growth factor II, UniProtKB P01344 IGF2_HUMAN".
  9. Frasca F, Pandini G, Scalia P, Sciacca L, Mineo R, Costantino A, Goldfine ID, Belfiore A, Vigneri R (1999). "Insulin receptor isoform A, a newly recognized, high-affinity insulin-like growth factor II receptor in fetal and cancer cells". Molecular and Cellular Biology. 19 (5): 3278–88. doi:10.1128/MCB.19.5.3278. PMC 84122. PMID 10207053.
  10. Neidhart, M (2016). DNA Methylation and Complex Human Disease (1st ed.). San Diego: Academic Press. p. 222. ISBN 9780124201941.
  11. Neidhart, M (2016). DNA Methylation and Complex Human Disease (1st ed.). San Diego: Academic Press. p. 22. ISBN 978-0124201941.
  12. Chen DY, Stern SA, Garcia-Osta A, Saunier-Rebori B, Pollonini G, Bambah-Mukku D, Blitzer RD, Alberini CM (Jan 2011). "A critical role for IGF-II in memory consolidation and enhancement". Nature. 469 (7331): 491–7. Bibcode:2011Natur.469..491C. doi:10.1038/nature09667. PMC 3908455. PMID 21270887.
  13. Agis-Balboa RC, Arcos-Diaz D, Wittnam J, Govindarajan N, Blom K, Burkhardt S, Haladyniak U, Agbemenyah HY, Zovoilis A, Salinas-Riester G, Opitz L, Sananbenesi F, Fischer A (Oct 2011). "A hippocampal insulin-growth factor 2 pathway regulates the extinction of fear memories". The EMBO Journal. 30 (19): 4071–83. doi:10.1038/emboj.2011.293. PMC 3209781. PMID 21873981.
  14. Buchanan CM, Phillips AR, Cooper GJ (1 Dec 2001). "Preptin derived from proinsulin-like growth factor II (proIGF-II) is secreted from pancreatic islet beta-cells and enhances insulin secretion". Biochem. J. 360 (Pt 2): 431–439. doi:10.1042/0264-6021:3600431. PMC 1222244. PMID 11716772. S2CID 39228039.
  15. Amso Z, Kowalczyk R, Watson M, Park YF, Callon KE, Musson DS, Cornish J, Brimble M (21 Oct 2016). "Structure activity relationship study on the peptide hormone preptin, a novel bone-anabolic agent for the treatment of osteoporosis". Org Biomol Chem. 14 (39): 9225–9238. doi:10.1039/c6ob01455k. PMID 27488745.
  16. Buckels EJ, Hsu H-L, Buchanan CM, Matthews BG (1 Dec 2022). "Genetic ablation of the preptin-coding portion of Igf2 impairs pancreatic function in female mice". Am J Physiol Endocrinol Metab. 323 (6): E467–E479. doi:10.1152/ajpendo.00401.2021. PMID 36459047. S2CID 252458335.
  17. Balduyck B, Lauwers P, Govaert K, Hendriks J, De Maeseneer M, Van Schil P (Jul 2006). "Solitary fibrous tumor of the pleura with associated hypoglycemia: Doege-Potter syndrome: a case report". Journal of Thoracic Oncology. 1 (6): 588–90. doi:10.1097/01243894-200607000-00016. PMID 17409923.
  18. He J, Zhang A, Fang M, Fang R, Ge J, Jiang Y, Zhang H, Han C, Ye X, Yu D, Huang H, Liu Y, Dong M (12 July 2013). "Methylation levels at IGF2 and GNAS DMRs in infants born to preeclamptic pregnancies". BMC Genomics. 14: 472. doi:10.1186/1471-2164-14-472. PMC 3723441. PMID 23844573.
  19. Höglund O, Sjölund C, Shokrai A, Bäcklin BM, Backhaus A, Wikström K, Granerus M, Engström W (June 1993). "The effects of polychlorinated biphenyls on growth factor expression and biological reproduction in the mink (Mustela vison)". Reproduction in Domestic Animals. 28 (3): 215–216. doi:10.1111/j.1439-0531.1993.tb00129.x.
  20. ^ Storch S, Kübler B, Höning S, Ackmann M, Zapf J, Blum W, Braulke T (Dec 2001). "Transferrin binds insulin-like growth factors and affects binding properties of insulin-like growth factor binding protein-3". FEBS Letters. 509 (3): 395–8. Bibcode:2001FEBSL.509..395S. doi:10.1016/S0014-5793(01)03204-5. PMID 11749962. S2CID 22895295.
  21. Buckway CK, Wilson EM, Ahlsén M, Bang P, Oh Y, Rosenfeld RG (Oct 2001). "Mutation of three critical amino acids of the N-terminal domain of IGF-binding protein-3 essential for high affinity IGF binding". The Journal of Clinical Endocrinology and Metabolism. 86 (10): 4943–50. doi:10.1210/jcem.86.10.7936. PMID 11600567.
  22. Twigg SM, Baxter RC (Mar 1998). "Insulin-like growth factor (IGF)-binding protein 5 forms an alternative ternary complex with IGFs and the acid-labile subunit". The Journal of Biological Chemistry. 273 (11): 6074–9. doi:10.1074/jbc.273.11.6074. PMID 9497324.
  23. Firth SM, Ganeshprasad U, Baxter RC (Jan 1998). "Structural determinants of ligand and cell surface binding of insulin-like growth factor-binding protein-3". The Journal of Biological Chemistry. 273 (5): 2631–8. doi:10.1074/jbc.273.5.2631. PMID 9446566.

Further reading

External links

PDB gallery
  • 1igl: SOLUTION STRUCTURE OF HUMAN INSULIN-LIKE GROWTH FACTOR II RELATIONSHIP TO RECEPTOR AND BINDING PROTEIN INTERACTIONS 1igl: SOLUTION STRUCTURE OF HUMAN INSULIN-LIKE GROWTH FACTOR II RELATIONSHIP TO RECEPTOR AND BINDING PROTEIN INTERACTIONS
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