LANCL2 explained

LanC-like protein 2 is a protein that in humans is encoded by the LANCL2 gene.[1] [2] It is a protein broadly expressed in the plasma a nuclear membranes of immune, epithelial and muscle cells and a potential therapeutic target for chronic inflammatory, metabolic and immune-mediated diseases such as Crohn's disease and diabetes.[3]

Function

The natural ligand of LANCL2, abscisic acid (ABA), has been identified as a new endogenous mammalian hormone implicated in glycemic control. The mammalian ABA receptor has been identified as LANCL2 on the basis of (1) modeling predictions,[4] (2) direct and specific ABA binding to the purified recombinant protein,[5] and (3) abrogation of the functional effects of ABA by silencing of LANCL2 expression in ABA-sensitive cells.[6]

Selective binding between LANCL2 and ABA or other ligands such as the benzimidazole NSC61610 and piperazine BT-11,[7] lead to elevation of intracellular cAMP, activation of PKA[8] and suppression of inflammation in macrophages. In hepatocytes, LANCL2 regulates cell survival by phosphorylation of Akt through its interaction with the Akt kinase mTORC2.[9] Active mTORC2 causes translocation of GLUT4 to the plasma membrane and stimulates glucose uptake.[10] LANCL2 expression in immune cells, adipose tissue, skeletal muscle and pancreas, and the potential to manipulate LANCL2 signaling and GLUT4 translocation with ABA make this G protein-coupled receptor a novel therapeutic target for glycemic control. In humans, ABA release was detected with increasing glycemia, although this mechanism failed in people suffering from type 2 and gestational diabetes. Also, plasma ABA concentrations increase after oral glucose load (OGTT) in healthy subjects.[11] ABA stimulates glucose-dependent insulin release from human and rodent pancreatic β-cells. At a low dose (micrograms/Kg body weight) oral ABA significantly reduces both glycemia and insulinemia in rats and in humans undergoing an OGTT [12] indicating that ABA reduces the amount of insulin required to control hyperglycemia. This insulin-sparing effect suggests that LANCL2 can be used as a therapeutic target for the treatment of inflammatory and metabolic diseases such as metabolic syndrome, prediabetes and diabetes.

Novel LANCL2 ligands such as BT-11 significantly decrease disease activity in the Dextran Sodium Sulfate (DSS)-induced model of acute colitis and the IL-10-/- mice and CD4+ T cell transfer-induced chronic colitis models. BT-11 treatment decreased leukocytic infiltration, mucosal thickening and epithelial erosion in the colon, decreased Th1 and Th17 CD4+ T cells and TNFα while increasing regulatory T cells, LANCL2 and IL-10 expression.

Further reading

Notes and References

  1. Mayer H, Pongratz M, Prohaska R . Molecular cloning, characterization, and tissue-specific expression of human LANCL2, a novel member of the LanC-like protein family . DNA Sequence . 12 . 3 . 161–6 . Dec 2001 . 11762191 . 10.3109/10425170109080770 . 43695440 .
  2. Web site: Entrez Gene: LANCL2 LanC lantibiotic synthetase component C-like 2 (bacterial).
  3. Lu P, Hontecillas R, Philipson CW, Bassaganya-Riera J . Lanthionine synthetase component C-like protein 2: a new drug target for inflammatory diseases and diabetes . Current Drug Targets . 15 . 6 . 565–72 . Jun 2014 . 24628287 . 10.2174/1389450115666140313123714.
  4. Lu P, Bevan DR, Lewis SN, Hontecillas R, Bassaganya-Riera J . Molecular modeling of lanthionine synthetase component C-like protein 2: a potential target for the discovery of novel type 2 diabetes prophylactics and therapeutics . Journal of Molecular Modeling . 17 . 3 . 543–53 . Mar 2011 . 20512604 . 10.1007/s00894-010-0748-y . 22559285 .
  5. Sturla L, Fresia C, Guida L, Grozio A, Vigliarolo T, Mannino E, Millo E, Bagnasco L, Bruzzone S, De Flora A, Zocchi E . Binding of abscisic acid to human LANCL2 . Biochemical and Biophysical Research Communications . 415 . 2 . 390–5 . Nov 2011 . 22037458 . 10.1016/j.bbrc.2011.10.079 .
  6. Sturla L, Fresia C, Guida L, Bruzzone S, Scarfì S, Usai C, Fruscione F, Magnone M, Millo E, Basile G, Grozio A, Jacchetti E, Allegretti M, De Flora A, Zocchi E . LANCL2 is necessary for abscisic acid binding and signaling in human granulocytes and in rat insulinoma cells . The Journal of Biological Chemistry . 284 . 41 . 28045–57 . Oct 2009 . 19667068 . 2788856 . 10.1074/jbc.M109.035329 . free .
  7. Web site: Lanthionine synthetase C-like 2: A novel therapeutic target for inflammatory bowel disease NIMML. www.nimml.org. 2016-02-09.
  8. Bassaganya-Riera J, Guri AJ, Lu P, Climent M, Carbo A, Sobral BW, Horne WT, Lewis SN, Bevan DR, Hontecillas R . Abscisic acid regulates inflammation via ligand-binding domain-independent activation of peroxisome proliferator-activated receptor gamma . The Journal of Biological Chemistry . 286 . 4 . 2504–16 . Jan 2011 . 21088297 . 3024745 . 10.1074/jbc.M110.160077 . free .
  9. Zeng M, van der Donk WA, Chen J . Lanthionine synthetase C-like protein 2 (LanCL2) is a novel regulator of Akt . Molecular Biology of the Cell . 25 . 24 . 3954–61 . Dec 2014 . 25273559 . 4244203 . 10.1091/mbc.E14-01-0004 .
  10. Sato M, Dehvari N, Oberg AI, Dallner OS, Sandström AL, Olsen JM, Csikasz RI, Summers RJ, Hutchinson DS, Bengtsson T . Improving type 2 diabetes through a distinct adrenergic signaling pathway involving mTORC2 that mediates glucose uptake in skeletal muscle . Diabetes . 63 . 12 . 4115–29 . Dec 2014 . 25008179 . 10.2337/db13-1860 . free .
  11. Bruzzone S, Ameri P, Briatore L, Mannino E, Basile G, Andraghetti G, Grozio A, Magnone M, Guida L, Scarfì S, Salis A, Damonte G, Sturla L, Nencioni A, Fenoglio D, Fiory F, Miele C, Beguinot F, Ruvolo V, Bormioli M, Colombo G, Maggi D, Murialdo G, Cordera R, De Flora A, Zocchi E . The plant hormone abscisic acid increases in human plasma after hyperglycemia and stimulates glucose consumption by adipocytes and myoblasts . FASEB Journal . 26 . 3 . 1251–60 . Mar 2012 . 22075645 . 10.1096/fj.11-190140 . free . 19413693 .
  12. Magnone M, Ameri P, Salis A, Andraghetti G, Emionite L, Murialdo G, De Flora A, Zocchi E . Microgram amounts of abscisic acid in fruit extracts improve glucose tolerance and reduce insulinemia in rats and in humans . FASEB Journal . 29 . 12 . 4783–93 . Dec 2015 . 10.1096/fj.15-277731 . 26243865 . free. 9371779 .