Serpin A12 (OL-64, Vaspin, Visceral adipose-specific serpin, Ser A12) is a glycoprotein that is a class A member of the serine protease inhibitor (serpin) family.[5] In humans, Serpin A12 is encoded by the SERPINA12 gene.[6]

SERPINA12
Available structures
PDBOrtholog search: PDBe RCSB
Identifiers
AliasesSERPINA12, OL-64, serpin family A member 12
External IDsOMIM: 617471; MGI: 1915304; HomoloGene: 23588; GeneCards: SERPINA12; OMA:SERPINA12 - orthologs
Orthologs
SpeciesHumanMouse
Entrez
Ensembl
UniProt
RefSeq (mRNA)

NM_001304461
NM_173850
NM_001382267

NM_026535

RefSeq (protein)

NP_001291390
NP_776249
NP_001369196

NP_080811

Location (UCSC)Chr 14: 94.49 – 94.52 MbChr 12: 104 – 104.01 Mb
PubMed search[3][4]
Wikidata
View/Edit HumanView/Edit Mouse

First discovered in 2005, Serpin A12 was highly expressed in white adipose tissue of Otsuka Long Evans Tokushima Fatty Rats at the same time that the rats' obesity and insulin plasma levels reached a peak, at around 30 weeks old. Eventually, it was found to be expressed in visceral and subcutaneous adipose tissue of obese humans, leading the protein to be linked with obesity, glucose metabolism, and insulin resistance.[6]

General information

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Serpin A12
Family Serpin
Class A
Gene name SERPINA12
Organism Human (Homo sapiens sapiens)
Type of biomolecule Protein
Molecular weight 47 kDa
Amino acid count 414

Function

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Serpin A12 is a protease inhibitor with an approximate weight of 47 kDa and is a member of the adipokine family of cytokines excreted by adipose tissue.[7] Members of this family regulate a number of cellular processes, such as inflammation mediation and insulin resistance.[8] Made up of 414 amino acids, its main function is modulating the insulin inhibiting protease KLK7, mainly in adipose tissue.[5]

Among other functions, Serpin A12 performs insulin-sensitizing actions.[9] Serpin A12 treatment of obese and insulin-resistant mice has been shown to decrease the expression of insulin resistance genes in white adipose tissue as well as improving carbohydrate resistance.[10]

Serpin A12 also increases bone density, which helps prevent osteoporosis. It does so by regulating osteoblasts, assisting in their mineralization of the bone matrix, thus balancing bone formation with bone resorption.

History

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In 2005, Serpin A12 was discovered to be found in rats, mice, and humans. One study confirmed that those with insulin resistance had higher levels of Serpin A12 than others. Thus, those humans (or animals) who were diabetic had more Serpin A12 than those who were not. The explanation for this lies in the fact that type 2 diabetes is related to inflammation processes, hence coinciding with the anti-inflammatory effect of Serpin A12.

Mode of Action

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Serpin A12 is secreted by visceral adipose tissue. Some of its roles include activation of GLUT4 and STAT3, and increasing acetylcholine and nitric oxide levels. It also inhibits NF-κB, decreases the production of cysteine-rich protein, HOMA-IR, low-density lipoprotein C, leptin, etc.

The function of insulin is to allow the movement of glucose into the cells, and for this it binds to the insulin receptor's tyrosine-kinase, causing, first, the phosphorylation of tyrosine and, then, the activation of the insulin receptor substrate. The insulin receptor substrate, in turn, activates protein kinase-B by stimulating the PI3K protein, and eventually glucose transporters will be inside the cell. If the activation of this pathway is inhibited, glucose will not be able to enter the cell. The NF-κB protein is responsible for regulating inflammation in adipose tissue, so the activation of this protein leads to inflammation, which leads to insulin resistance, since the phosphorylation of tyrosine is interrupted. Serpin A12 inhibits the activation of the protein NF-κB, and thus insulin resistance is decreased.

Structure

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Serpin A12 is coded by the 14q32.13 gene, on the 14th chromosome.[11][12] Serpin A12 is made up of 414 amino acids. Its molecular weight is approximately 47kDa.

Domain

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Serpin A12 has a single protein domain consisting of 7 to 9 alpha helices and 3 beta strands (A,B,C).

Serpin group

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Serpins are a large group of proteins with similar structures. "Serpin" is derived from "serine protease inhibitors", which denotes the group's main characteristic, the inhibition of protease enzymes. More than 1000 serpins have been identified among humans, plants, bacteria, parasites, and some viruses.

The first proteins from this group that were studied were antithrombin and antitrypsin, which are blood proteins. Scientists discovered that the two share a large number of amino acid sequences that were also common to ovalbumin. So, they thought they may be faced with a new family of proteins.

Although the main role of serpins is the inhibition of proteases, they can also perform other functions, such as storage and transport, as well as the regulation of blood pressure.

Modifications

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Serpin A12 has three possible glycosylation sites located at asparagine residues. These can be post-translational modifications that may change the protein's properties. Although the protein can undergo these different glycosylation processes, they only diminish heparin affinity. There is no significant effect on KLK7 activity or the protein's thermal stability.[6]

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When obesity and insulinemia are present, Serpin A12 is found in very high concentrations. However, these levels decrease with the worsening of diabetes and weight loss.[13]

Administration of Serpin A12 to obese subjects has been seen to improve glucose tolerance and insulin sensitivity, and it also alters the expression of genes associated with insulin resistance.

It is thought that the expression of Serpin A12 could be a mechanism for the compensation of insulin sensitivity and glucose metabolism, as occurs in problems such as obesity or type 2 diabetes.

Despite everything, several studies have shown that not all obese, diabetic, or glucose intolerant patients have detectable Serpin A12 levels.

References

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  1. ^ a b c GRCh38: Ensembl release 89: ENSG00000165953Ensembl, May 2017
  2. ^ a b c GRCm38: Ensembl release 89: ENSMUSG00000041567Ensembl, 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 Kyrou I, Mattu HS, Chatha K, Randeva HS (2017). "Fat Hormones, Adipokines". Endocrinology of the Heart in Health and Disease. pp. 167–205. doi:10.1016/B978-0-12-803111-7.00007-5. ISBN 9780128031117.
  6. ^ a b c "UniProtKB - Q8IW75 (SPA12_HUMAN)". UniProt. November 1, 2020. Retrieved Nov 1, 2020.
  7. ^ "Adipokines". US National Library of Medicine Medical Subject Headings (MeSH). January 1, 2008. Retrieved November 1, 2020.
  8. ^ Weiner J, Zieger K, Pippel J, Heiker JT (2018). Molecular Mechanisms of Vaspin Action - From Adipose Tissue to Skin and Bone, from Blood Vessels to the Brain. Advances in Experimental Medicine and Biology. Vol. 1111. pp. 159–188. doi:10.1007/5584_2018_241. hdl:10033/622127. ISBN 978-3-030-14338-1. PMID 30051323.
  9. ^ "SERPINA12 Gene (Protein Coding)". Genecards. Retrieved November 1, 2020.
  10. ^ Oertwig K, Ulbricht D, Hanke S, Pippel J, Bellmann-Sickert K, Sträter N, Heiker JT (September 2017). "Glycosylation of human vaspin (SERPINA12) and its impact on serpin activity, heparin binding and thermal stability". Biochimica et Biophysica Acta (BBA) - Proteins and Proteomics. 1865 (9): 1188–1194. doi:10.1016/j.bbapap.2017.06.020. PMID 28668641.
  11. ^ "SERPINA12 Gene - GeneCards | SPA12 Protein | SPA12 Antibody". www.genecards.org. Retrieved 2020-11-09.
  12. ^ "SERPINA12 protein expression". The Human Protein Atlas. November 10, 2020.
  13. ^ Zulet M, Puchau B, Navarro C, Marti A, Martinez JA (October 2007). "Biomarcadores del estado inflamatorio: nexo de unión con la obesidad y complicaciones asociadas" [Biomarkers of inflammatory status : link with obesity and associated complications]. Nutrición Hospitalaria (in Spanish). 22 (5): 511–527. hdl:10171/21200.
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