C-peptide

Not to be confused with C-reactive protein or Protein C.
C-peptide[1]
Identifiers
59112-80-0 YesY
3D model (Jmol) Interactive image
ChemSpider 17288968 N
MeSH C-Peptide
PubChem 16132309
Properties
C129H211N35O48
Molar mass 3020.29 g/mol
Except where otherwise noted, data are given for materials in their standard state (at 25 °C [77 °F], 100 kPa).
N verify (what is YesYN ?)
Infobox references

The connecting peptide, or C-peptide, is a short 31-amino-acid polypeptide that connects insulin's A-chain to its B-chain in the proinsulin molecule. In diabetes and other diseases a measurement of C-peptide blood serum levels can be used to distinguish between certain diseases with similar clinical features.

In the insulin synthesis pathway, first preproinsulin is translocated into the endoplasmic reticulum of beta cells of the pancreas with an A-chain, a C-peptide, a B-chain, and a signal sequence. The signal sequence is cleaved from the N-terminus of the peptide by a signal peptidase, leaving proinsulin. After proinsulin is packaged into vesicles in the Golgi apparatus (beta-granules), the C-peptide is removed, leaving the A-chain B-chain, bound together by disulfide bonds, that constitute the insulin molecule.

History

Proinsulin C-peptide was first described in 1967 in connection with the discovery of the insulin biosynthesis pathway.[2] It serves as a linker between the A- and the B- chains of insulin and facilitates the efficient assembly, folding, and processing of insulin in the endoplasmic reticulum. Equimolar amounts of C-peptide and insulin are then stored in secretory granules of the pancreatic beta cells and both are eventually released to the portal circulation. Initially, the sole interest in C-peptide was as a marker of insulin secretion and has, as such, been of great value in furthering the understanding of the pathophysiology of type 1 and type 2 diabetes. The first documented use of the C-peptide test was in 1972. During the past decade, however, C-peptide has been found to be a bioactive peptide in its own right, with effects on microvascular blood flow and tissue health.

Function

Cellular effects of C-peptide

C-peptide has been shown to bind to the surface of a number of cell types such as neuronal, endothelial, fibroblast and renal tubular, at nanomolar concentrations to a receptor that is likely G-protein-coupled. The signal activates Ca2+-dependent intracellular signaling pathways such as MAPK, PLCγ, and PKC, leading to upregulation of a range of transcription factors as well as eNOS and Na+K+ATPase activities.[3] The latter two enzymes are known to have reduced activities in patients with type I diabetes and have been implicated in the development of long-term complications of type I diabetes such as peripheral and autonomic neuropathy.

In vivo studies in animal models of type 1 diabetes have established that C-peptide administration results in significant improvements in nerve and kidney function. Thus, in animals with early signs of diabetes-induced neuropathy, C peptide treatment in replacement dosage results in improved peripheral nerve function, as evidenced by increased nerve conduction velocity, increased nerve Na+,K+ ATPase activity, and significant amelioration of nerve structural changes.[4] Likewise, C-peptide administration in animals that had C-peptide deficiency (type 1 model) with nephropathy improves renal function and structure; it decreases urinary albumin excretion and prevents or decreases diabetes-induced glomerular changes secondary to mesangial matrix expansion.[5][6][7][8] C-peptide also has been reported to have anti-inflammatory effects as well as aid repair of smooth muscle cells.[9][10] ii

Clinical uses of C-peptide testing

Therapeutics

Therapeutic use of C-peptide has been explored in small clinical trials in diabetic kidney disease.[15][16] Creative Peptides,[17] Eli Lilly,[18] and Cebix[19] all had drug development programs for a C-peptide product. Cebix had the only ongoing program until it completed a Phase IIb trial in December 2014 that showed no difference between C-peptide and placebo, and it terminated its program and went out of business.[20][21]

References

  1. C-Peptide - Compound Summary, PubChem.
  2. Steiner D.F.; Cunningham D.; Spigelman L.; Aten B. (1967). "Insulin Biosynthesis: Evidence for a Precursor". Science. 157 (3789): 697–700. doi:10.1126/science.157.3789.697. PMID 4291105.
  3. Hills CE, Brunskill NJ (2008). "Intracellular signalling by C-peptide". Exp Diabetes Res. 2008: 635158. doi:10.1155/2008/635158. PMC 2276616Freely accessible. PMID 18382618.
  4. Sima AA, Zhang W, Sugimoto K, et al. (July 2001). "C-peptide prevents and improves chronic Type I diabetic polyneuropathy in the BB/Wor rat". Diabetologia. 44 (7): 889–97. doi:10.1007/s001250100570. PMID 11508275.
  5. Samnegård B, Jacobson SH, Jaremko G, Johansson BL, Sjöquist M (October 2001). "Effects of C-peptide on glomerular and renal size and renal function in diabetic rats". Kidney Int. 60 (4): 1258–65. doi:10.1046/j.1523-1755.2001.00964.x. PMID 11576340.
  6. Samnegård B, Jacobson SH, Jaremko G, et al. (March 2005). "C-peptide prevents glomerular hypertrophy and mesangial matrix expansion in diabetic rats". Nephrol. Dial. Transplant. 20 (3): 532–8. doi:10.1093/ndt/gfh683. PMID 15665028.
  7. Nordquist L, Brown R, Fasching A, Persson P, Palm F (November 2009). "Proinsulin C-peptide reduces diabetes-induced glomerular hyperfiltration via efferent arteriole dilation and inhibition of tubular sodium reabsorption". Am. J. Physiol. Renal Physiol. 297 (5): F1265–72. doi:10.1152/ajprenal.00228.2009. PMC 2781335Freely accessible. PMID 19741019.
  8. Nordquist L, Wahren J (2009). "C-Peptide: the missing link in diabetic nephropathy?". Rev Diabet Stud. 6 (3): 203–10. doi:10.1900/RDS.2009.6.203. PMC 2827272Freely accessible. PMID 20039009.
  9. Luppi P, Cifarelli V, Tse H, Piganelli J, Trucco M (August 2008). "Human C-peptide antagonises high glucose-induced endothelial dysfunction through the nuclear factor-kappaB pathway". Diabetologia. 51 (8): 1534–43. doi:10.1007/s00125-008-1032-x. PMID 18493738.
  10. Mughal RS, Scragg JL, Lister P, et al. (August 2010). "Cellular mechanisms by which proinsulin C-peptide prevents insulin-induced neointima formation in human saphenous vein". Diabetologia. 53 (8): 1761–71. doi:10.1007/s00125-010-1736-6. PMC 2892072Freely accessible. PMID 20461358.
  11. Jones AG, Hattersley AT. The clinical utility of C-peptide measurement in the care of patients with diabetes. Diabetic Medicine 2013 Jul;30(7):803-17.
  12. Clark PM. Assays for insulin, proinsulin and C-peptide. Ann Clin Biochem 1999;36:541-564
  13. Shapiro ET, Tillil H, Rubenstein AH, Polonsky KS. Peripheral insulin parallels changes in insulin secretion more closely than C-peptide after bolus intravenous glucose administration. J Clin Endocrinol Metab. 1988 Nov;67(5):1094-9
  14. R, Chandini; Udayabhaskaran V; Binoy J Paul; K.P Ramamoorthy (July 2013). "A study of non-obese diabetes mellitus in adults in a tertiary care hospital in Kerala, India". International Journal of Diabetes in Developing Countries. 33 (2): 83–85. doi:10.1007/s13410-013-0113-7. Retrieved 30 March 2014.
  15. Brunskill, NJ (19 September 2016). "C-peptide and diabetic kidney disease.". Journal of internal medicine. PMID 27640884.
  16. Shaw, JA; Shetty, P; Burns, KD; Fergusson, D; Knoll, GA (2015). "C-peptide as a Therapy for Kidney Disease: A Systematic Review and Meta-Analysis.". PloS one. 10 (5): e0127439. PMID 25993479.
  17. "C-peptide - Creative Peptides -". AdisInsight. Retrieved 22 October 2016.
  18. "C-peptide - Eli Lilly". AdisInsight. Retrieved 22 October 2016.
  19. "C-peptide long-acting - Cebix". adisinsight.springer.com. AdisInsight. Retrieved 22 October 2016.
  20. Bigelow, Bruce V. (23 February 2015). "Cebix Shuts Down Following Mid-Stage Trial of C-Peptide Drug". Xconomy.
  21. Garde, Damian (February 24, 2015). "Cebix hangs it up after raising $50M for diabetes drug". FierceBiotech.
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