INTRODUCTION: Published evidence suggests that phosphoinositide 3 kinase-β (PI3K-β) plays an important role in platelet aggregation and shear activation. TGX-221 is a selective PI3K-β inhibitor with a good separation of anti-thrombotic efficacy and bleeding (therapeutic index) in rats. Our goal was to further evaluate potential of a PI3K-β inhibitor as an anti-thrombotic agent by determining the therapeutic index in another species and efficacy model. Reported effects of TGX-221 in rats were also confirmed. MATERIALS AND METHODS: TGX-221 (0.3 + 0.3, 1 + 1, 3 + 3 mg/kg + mg/kg/hr, i.v.) or vehicle was given to mice starting 15 min prior to FeCl(3) arterial thrombosis (AT), tail or kidney bleeding time (BT) procedures. RESULTS: Integrated blood flow over 30 min (%baseline mean ± SEM) improved (p < 0.05) with TGX-221 doses 1 + 1 (49 ± 13.9%) and 3+3 (88 ± 10.6%) versus 0.3 + 0.3 (10 ± 0.8%) and vehicle (10 ± 0.6%). Vascular patency (non-occluded/total arteries) improved (p < 0.01) with TGX-221 doses of 3 + 3 (7/8), but not 0.3 + 0.3 (0/8) or 1 + 1 (4/8) versus vehicle (0/8). Tail BT (sec) increased (p < 0.05) with TGX-221 doses of 3 + 3 (median 1560) and 1 + 1 (1305) versus vehicle (225). Mean renal BT (sec) increased (p < 0.05) in all TGX-221 groups (3 + 3: 510 + 26; 1 + 1: 478 + 41; 0.3 + 0.3: 246 + 37) versus vehicle (123 + 9). For comparison, a reference agent, aspirin (30 mpk, i.p.) increased tail BT 1.9X and renal BT 2.6X. CONCLUSIONS: The novel finding of a clear impact on hemostasis by TGX-221 was demonstrated by increased bleeding in two models in mice at anti-thrombotic doses. The results suggest a narrower therapeutic index for this PI3K-β inhibitor than previously recognized, at least for this species.
INTRODUCTION: Published evidence suggests that phosphoinositide 3 kinase-β (PI3K-β) plays an important role in platelet aggregation and shear activation. TGX-221 is a selective PI3K-β inhibitor with a good separation of anti-thrombotic efficacy and bleeding (therapeutic index) in rats. Our goal was to further evaluate potential of a PI3K-β inhibitor as an anti-thrombotic agent by determining the therapeutic index in another species and efficacy model. Reported effects of TGX-221 in rats were also confirmed. MATERIALS AND METHODS:TGX-221 (0.3 + 0.3, 1 + 1, 3 + 3 mg/kg + mg/kg/hr, i.v.) or vehicle was given to mice starting 15 min prior to FeCl(3) arterial thrombosis (AT), tail or kidney bleeding time (BT) procedures. RESULTS: Integrated blood flow over 30 min (%baseline mean ± SEM) improved (p < 0.05) with TGX-221 doses 1 + 1 (49 ± 13.9%) and 3+3 (88 ± 10.6%) versus 0.3 + 0.3 (10 ± 0.8%) and vehicle (10 ± 0.6%). Vascular patency (non-occluded/total arteries) improved (p < 0.01) with TGX-221 doses of 3 + 3 (7/8), but not 0.3 + 0.3 (0/8) or 1 + 1 (4/8) versus vehicle (0/8). Tail BT (sec) increased (p < 0.05) with TGX-221 doses of 3 + 3 (median 1560) and 1 + 1 (1305) versus vehicle (225). Mean renal BT (sec) increased (p < 0.05) in all TGX-221 groups (3 + 3: 510 + 26; 1 + 1: 478 + 41; 0.3 + 0.3: 246 + 37) versus vehicle (123 + 9). For comparison, a reference agent, aspirin (30 mpk, i.p.) increased tail BT 1.9X and renal BT 2.6X. CONCLUSIONS: The novel finding of a clear impact on hemostasis by TGX-221 was demonstrated by increased bleeding in two models in mice at anti-thrombotic doses. The results suggest a narrower therapeutic index for this PI3K-β inhibitor than previously recognized, at least for this species.
Authors: Waltraud C Schrottmaier; Marion Mussbacher; Manuel Salzmann; Julia B Kral-Pointner; Alice Assinger Journal: Curr Top Microbiol Immunol Date: 2022 Impact factor: 4.737
Authors: Stefanie Krajewski; Julia Kurz; Tobias Geisler; Karlheinz Peter; Hans Peter Wendel; Andreas Straub Journal: PLoS One Date: 2012-06-06 Impact factor: 3.240