HGH (1-43)
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HGH (1-43)

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Category
Others
Catalog number
BAT-010221
CAS number
96827-07-5
Molecular Formula
C240H358N62O67S
Molecular Weight
5215.93
Synonyms
HGH (Human Growth Hormone)
Sequence
FPTIPLSALFDNAMLRAHRLHQLAFDTYQEFEEAYIPKEQKYS
Storage
Store at -20°C
1. Increased sensitivity of adipose tissue to insulin after in vivo treatment of yellow Avy/A obese mice with amino-terminal peptides of human growth hormone
L G Frigeri, C Teguh, N Ling, G L Wolff, U J Lewis Endocrinology. 1988 Jun;122(6):2940-5. doi: 10.1210/endo-122-6-2940.
Treatment of obese yellow Avy/A mice with the human GH (hGH) peptide hGH-(1-43) enhanced the in vitro sensitivity of their adipose tissue to insulin. Insulin-stimulated glucose oxidation, as determined by measurement of 14CO2 production, was enhanced 106% after administration of hGH-(1-43) at a dosage of 1 microgram/day for 3 days. A significant increase in CO2 production was detected with as little as 100 ng peptide/day for 3 days. A single injection of 10 micrograms increased sensitivity to insulin 2-5 times. This enhancing effect of insulin action could not be seen in lean agouti A/a animals nor could it be demonstrated by in vitro addition of hGH-(1-43) to adipose tissue. Synthetic hGH-(1-43) was used for these studies, but initial physiological work was done with peptide isolated from pituitary glands. At equimolar doses, intact hGH, a trypsin digest of either hGH or BSA, carbidomethyl cysteine-hGH-(146-191), and hGH-(32-46) were inactive. Carbidomethyl cysteine-hGH-(1-139) and hGH-(1-15) showed the enhancing property, but were only about 10% as active as hGH-(1-43). HGH-(1-43) did not increase serum insulin concentrations in the obese mice. We conclude that when administered in vivo to obese mice, hGH-(1-43) enhances the sensitivity of adipose tissue to the action of insulin, an indication that the peptide may play a role in carbohydrate metabolism.
2. Structure and properties of members of the hGH family: a review
U J Lewis, Y N Sinha, G P Lewis Endocr J. 2000 Mar;47 Suppl:S1-8. doi: 10.1507/endocrj.47.supplmarch_s1.
This review will summarize the properties of five variant forms of human growth hormone: a disulfide dimer, a glycosylated form, 20 kD-hGH, and two peptides made up of portions of 22 kD-hGH. The two pituitary peptides (hGH(1-43) and hGH(44-191)) have, respectively, insulin-potentiating and anti-insulin properties. Both have been detected in serum. The shorter peptide may prove to be useful in decreasing the amount of exogenous insulin required by diabetics. The larger, strongly anti-insulin peptide, may be involved in diabetic retinopathy. We believe that this peptide is the long sought after diabetogenic substance of the pituitary gland.
3. Human growth hormone fragments 1-43 and 44-191: in vitro somatogenic activity and receptor binding characteristics in human and nonprimate systems
S W Rowlinson, M J Waters, U J Lewis, R Barnard Endocrinology. 1996 Jan;137(1):90-5. doi: 10.1210/endo.137.1.8536647.
Human GH (hGH) fragments 1-43 and 44-191 have potent in vivo effects on glucose homeostasis in rodents but cannot stimulate body growth. To assess the in vitro bioactivity of these hGH fragments we tested their activity against GH-responsive FDC-P1 cell lines expressing full-length human (h), mouse (m), or rabbit (r) GH receptors (GHR). Binding specificity and affinity was tested using GHR-containing membrane preparations from three species and recombinant hGH binding protein (hGHBP). Recombinant hGH 1-43 and recombinant 44-191 stimulated proliferation of FDC-P1-hGHR cells with half-maximal effect at approximately 2000 and 100 nM, respectively, whereas intact hGH stimulates proliferation of FDC-P1-hGHR cells with ED50 of 0.02-0.03 nM. However, these fragments had minimal effect on cells expressing mGHR or rGHR. Although 44-191 did not stimulate proliferation of FDC-P1-rGHR cells, when added to these cells in the presence of 0.23 nM hGH, it antagonized hGH action in a dose-dependent manner (ED50 at 230 nM). Binding of these GH fragments was compared using membrane preparations from rabbit liver, rabbit and mouse adipose tissue, and recombinant hGHBP. Binding competition curves were consistent, with 44-191 having at least a 10-fold lower affinity for rabbit liver GHR and rabbit adipose GHR than bovine GH and a 61-fold lower affinity for hGHBP than hGH. Binding of hGH 1-43 could not be demonstrated to GHRs in rabbit liver microsomes, adipose microsomes, or to hGHBP. HGH 1-43 did not compete for insulin binding sites in adipose microsomes. In conclusion, hGH 44-191 binds with low affinity to the GHR and at supraphysiologic levels stimulates proliferation of FDC-P1-hGHR cells. At high doses, 44-191 can also antagonize GH action in FDC-P1-rGHR cells, presumably by blocking receptor dimerization. Binding of 1-43 to GHR could not be detected, and the basis for its weak in vitro mitogenic effect remains to be elucidated. The low affinity of the fragments for cloned GHRs and low biopotency in these systems suggests that the metabolic actions of these fragments are unlikely to be mediated by the cloned GHR. This raises the possibility of a separate receptor mediating metabolic effects of these fragments.
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