BACKGROUND AND OBJECTIVE: Elevated levels of platelet-leukocyte aggregates (PLAs) have been reported in several cardiovascular diseases and suggested to contribute to disease pathology. Our aim was to characterize the effects of inclacumab, a novel human anti-P-selectin antibody, on the interactions between leukocytes and platelets in preclinical and clinical studies. EXPERIMENTAL APPROACHES: Dual-label flow cytometry was used to detect the effect of inclacumab on agonist-induced platelet-leukocyte/platelet-monocyte aggregates in cynomolgus monkeys and humans, following ex vivo and in vivo administration. Platelet-dependent leukocyte activation and leukocyte adhesion to a platelet monolayer were also investigated after ex vivo administration of inclacumab to human blood. RESULTS: Treatment of cynomolgus monkeys with inclacumab profoundly inhibited thrombin receptor-activating peptide (TRAP) or adenosine diphosphate (ADP)-induced PLAs with an IC50 (<2 μg/mL) similar to the in vitro spiking experiments. Maximal inhibition of PLAs persisted for ≥28 days following single dose of inclacumab. In human blood, inclacumab was about 2-fold more potent in inhibiting TRAP-induced PLAs (IC50: 0.7 μg/mL) compared to monkeys. PLA formation was suppressed independently of the inducing platelet agonist. Inclacumab also inhibited the activation of the leukocyte integrin Mac-1 and leukocyte adhesion to a platelet monolayer under flow conditions. In clinical studies, inclacumab inhibited TRAP-induced PLA formation in a dose-dependent manner following single and multiple dose administration to healthy volunteers. It also reduced elevated circulating PLA levels in patients with peripheral arterial disease. CONCLUSION: By inhibiting platelet-leukocyte interactions, demonstrated in multiple preclinical and clinical studies, inclacumab may provide an effective treatment for cardiovascular diseases.
BACKGROUND AND OBJECTIVE: Elevated levels of platelet-leukocyte aggregates (PLAs) have been reported in several cardiovascular diseases and suggested to contribute to disease pathology. Our aim was to characterize the effects of inclacumab, a novel human anti-P-selectin antibody, on the interactions between leukocytes and platelets in preclinical and clinical studies. EXPERIMENTAL APPROACHES: Dual-label flow cytometry was used to detect the effect of inclacumab on agonist-induced platelet-leukocyte/platelet-monocyte aggregates in cynomolgus monkeys and humans, following ex vivo and in vivo administration. Platelet-dependent leukocyte activation and leukocyte adhesion to a platelet monolayer were also investigated after ex vivo administration of inclacumab to human blood. RESULTS: Treatment of cynomolgus monkeys with inclacumab profoundly inhibited thrombin receptor-activating peptide (TRAP) or adenosine diphosphate (ADP)-induced PLAs with an IC50 (<2 μg/mL) similar to the in vitro spiking experiments. Maximal inhibition of PLAs persisted for ≥28 days following single dose of inclacumab. In human blood, inclacumab was about 2-fold more potent in inhibiting TRAP-induced PLAs (IC50: 0.7 μg/mL) compared to monkeys. PLA formation was suppressed independently of the inducing platelet agonist. Inclacumab also inhibited the activation of the leukocyte integrin Mac-1 and leukocyte adhesion to a platelet monolayer under flow conditions. In clinical studies, inclacumab inhibited TRAP-induced PLA formation in a dose-dependent manner following single and multiple dose administration to healthy volunteers. It also reduced elevated circulating PLA levels in patients with peripheral arterial disease. CONCLUSION: By inhibiting platelet-leukocyte interactions, demonstrated in multiple preclinical and clinical studies, inclacumab may provide an effective treatment for cardiovascular diseases.
Authors: Miruna Popa; Sibgha Tahir; Julia Elrod; Su Hwan Kim; Florian Leuschner; Thorsten Kessler; Peter Bugert; Ulrich Pohl; Andreas H Wagner; Markus Hecker Journal: Proc Natl Acad Sci U S A Date: 2018-05-23 Impact factor: 11.205
Authors: Christina L Wassel; Cecilia Berardi; James S Pankow; Nicholas B Larson; Paul A Decker; Naomi Q Hanson; Michael Y Tsai; Michael H Criqui; Matthew A Allison; Suzette J Bielinski Journal: Atherosclerosis Date: 2015-01-28 Impact factor: 5.162
Authors: Eugenio D Hottz; Isabel M Medeiros-de-Moraes; Adriana Vieira-de-Abreu; Edson F de Assis; Rogério Vals-de-Souza; Hugo C Castro-Faria-Neto; Andrew S Weyrich; Guy A Zimmerman; Fernando A Bozza; Patrícia T Bozza Journal: J Immunol Date: 2014-07-11 Impact factor: 5.422
Authors: Venkata R Krishnamurthy; Mohammed Y R Sardar; Yu Ying; Xuezheng Song; Carolyn Haller; Erbin Dai; Xiaocong Wang; Donny Hanjaya-Putra; Lijun Sun; Vasilios Morikis; Scott I Simon; Robert J Woods; Richard D Cummings; Elliot L Chaikof Journal: Nat Commun Date: 2015-03-31 Impact factor: 14.919
Authors: G Ed Rainger; Myriam Chimen; Matthew J Harrison; Clara M Yates; Paul Harrison; Stephen P Watson; Marie Lordkipanidzé; Gerard B Nash Journal: Platelets Date: 2015-07-21 Impact factor: 3.862
Authors: Barbara E Stähli; Catherine Gebhard; Valérie Duchatelle; Daniel Cournoyer; Thibaut Petroni; Jean-François Tanguay; Stephen Robb; Jessica Mann; Marie-Claude Guertin; R Scott Wright; Philippe L L'Allier; Jean-Claude Tardif Journal: J Am Heart Assoc Date: 2016-11-16 Impact factor: 5.501
Authors: Travis R Sexton; Eric L Wallace; Tracy E Macaulay; Richard J Charnigo; Virgilio Evangelista; Charles L Campbell; Alison L Bailey; Susan S Smyth Journal: J Thromb Thrombolysis Date: 2015-02 Impact factor: 2.300