1. Academic Validation
  2. Inhibition of proprotein convertases-1, -7 and furin by diterpines of Andrographis paniculata and their succinoyl esters

Inhibition of proprotein convertases-1, -7 and furin by diterpines of Andrographis paniculata and their succinoyl esters

  • Biochem J. 1999 Feb 15;338 ( Pt 1)(Pt 1):107-13.
A Basak 1 S Cooper A G Roberge U K Banik M Chrétien N G Seidah
Affiliations

Affiliation

  • 1 Laboratories of Structure and Metabolism of Neuropeptides, Clinical Research Institute, University of Montreal, Qué, Canada. Basaka@ircm.umontreal.ca
PMID: 9931305
Abstract

Studies were performed to investigate the prohormone/proprotein convertase (PC)-inhibitory properties of chemical constituents of the medicinally active plant Andrographis paniculata (AP; from the family Acanthaceae), also known as 'King of Bitters'. Among the individual components tested against the clinically important convertases, Furin and PC1, neoandrographolide (a C3 O-glucoside derivative of the major constituent andrographolide) exhibited the highest inhibitory action with an IC50 of 53.5 microM against Furin. The data further revealed that although andrographolide, the major bitter principle of AP, exhibited a relatively small Enzyme inhibition (IC50=1.0 mM and Ki=200 microM against Furin), upon succinoylation, its inhibitory action against the above convertases was enhanced significantly with a Ki in the low micromolar range (<30 microM), suggesting that a specific structural modification of the andrographolide skeleton may be exploited to develop a new class of non-peptide inhibitors of PCs. When tested against PC7, these succinoylated derivatives of andrographolide also displayed strong inhibitory action, with Ki values again in the low micromolar range. This potentially interesting observation may be attributed to the reported anti-HIV property of 14-dehydroandrographolide succinic acid monoester (DASM). It is suggested here that DASM, by virtue of this protease inhibitory property, possibly acts by suppressing the proteolytic cleavage of envelope glycoprotein gp160 of HIV, which is known to be PC-mediated, particularly by Furin and PC7.

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