Arg-Gly-Asp (RGD) is a unique minimal integrin-binding sequence that is found within several glycoprotein ligands. This sequence has also been found in snake-venom anti-platelet proteins, including the disintegrins and dendroaspin, a natural variant of short-chain neurotoxins isolated from the venom of Dendroaspis jamesonii. In the present study, the motifs RYD and RCD were introduced into the dendroaspin scaffold to replace RGD. Both motifs in dendroaspin caused inhibition of ADP-induced platelet aggregation with IC50 values of 200 and 300nM respectively, similar to that of the wild-type RGD motif (170nM). In comparison with wild-type dendroaspin, both RYD- and RCD-containing dendroaspins were more selective in the inhibition of the adhesion of K562 cells to laminin rather than to fibrinogen and fibronectin, even though they were 10–30-fold less potent at inhibiting K562 cell (containing α5β1 integrin) adhesion to laminin compared with wild-type. Interestingly, the RYD motif produced a similar IC50 value to the RGD motif at inhibiting A375-SM cell (β3 integrin) adhesion to collagen, whereas the RCD motif was approx. 2–6-fold less potent compared with either RGD or RYD. These findings show that the selectivity of dendroaspin binding to β1 and β3 integrins can be modulated by the introduction of alternative cell recognition sequences.
The effect of a panel of proline mutants of dendroaspin, an inhibitor of platelet aggregation and cell adhesion, including A42-dendroaspin, A47-dendroaspin, A49-dendroaspin, A42,47-dendroaspin and A47,49-dendroaspin, was investigated using platelet-aggregation and cell-adhesion assays. Here we show that a single alanine-for-proline substitution did not affect potency when measured as the ability either to inhibit platelet aggregation induced by ADP (IC50 ≈ 170nM) or to block transfected A375-SM cell adhesion to fibrinogen in the presence of Mn2+ as compared with wild-type dendroaspin. By comparison, double proline substitution with alanines significantly reduced the potency in both assays by approx. 5–8-fold. These observations, therefore, suggest that proline residues flanking the RGD motif in dendroaspin and other RGD-containing venom proteins, e.g. disintegrins, may contribute to maintaining a favourable conformation for the solvent-exposed RGD site for its recognition by integrin receptors.
The Arg-Gly-Asp (RGD) tripeptide unit is a cell-cell and cell-extracellular matrix recognition sequence of some integrins that is found within several extracellular matrix glycoproteins and dendroaspin, a disintegrin-like venom protein isolated from the snake venom of the Dendroaspis jamsonii. In the present study, the RGD motif in dendroaspin was substituted by Lys-Gly-Asp (KGD), His-Gly-Asp (HGD), Gln-Gly-Asp (QGD) and Ala-Gly-Asp (AGD) denoted as KGD-den, HGD-den, QGD-den and AGD-den, respectively. Each of the mutants exhibited activity as inhibitor of ADP-induced platelet aggregation with IC50 values of 0.26, 2.5, 6, and 17 microM for KGD-den, HGD-den, QGD-den, and AGD-den, respectively, as compared with RGD-den (IC50 = 0.18 microM). Interestingly, HGD-den was approx. two-fold more potent and a more selective inhibitor than either the KGD-den or QGD-den counterpart at blocking A375-SM human melanoma cell adhesion to fibrinogen (beta3-mediated). KGD-den, HGD-den, and QGD-den were preferentially antagonists of A375-SM human melanoma cell adhesion to fibrinogen rather than to fibronectin (alpha5beta1-, beta3-mediated). Both HGD-den and KGD-den were equipotent as inhibitors of human erythroleukaemia (HEL) cell adhesion to fibrinogen (IC50 = 0.15 microM) and also preferential inhibitors of HEL cell adhesion to fibrinogen (beta3 and beta1-mediated) rather than to fibronectin. These findings show that the presence of the arginine within the RGD motif of dendroaspin is not obligatory and substitution of this residue can modulate inhibitory potency and integrin binding selectivity.
Arg-Gly-Asp (RGD) is a unique minimal integrin-binding sequence that is found within several glycoprotein ligands. This sequence has also been found in snake-venom anti-platelet proteins, including the disintegrins and dendroaspin, a natural variant of short-chain neurotoxins isolated from the venom of Dendroaspis jamesonii. In the present study, the motifs RYD and RCD were introduced into the dendroaspin scaffold to replace RGD. Both motifs in dendroaspin caused inhibition of ADP-induced platelet aggregation with IC(50) values of 200 and 300 nM respectively, similar to that of the wild-type RGD motif (170 nM). In comparison with wild-type dendroaspin, both RYD- and RCD-containing dendroaspins were more selective in the inhibition of the adhesion of K562 cells to laminin rather than to fibrinogen and fibronectin, even though they were 10-30-fold less potent at inhibiting K562 cell (containing alpha(5)beta(1) integrin) adhesion to laminin compared with wild-type. Interestingly, the RYD motif produced a similar IC(50) value to the RGD motif at inhibiting A375-SM cell (beta(3) integrin) adhesion to collagen, whereas the RCD motif was approx. 2-6-fold less potent compared with either RGD or RYD. These findings show that the selectivity of dendroaspin binding to beta(1) and beta(3) integrins can be modulated by the introduction of alternative cell recognition sequences.
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