BACKGROUND: Pulmonary endothelium has metabolic functions including the conversion of angiotensin I to angiotensin II by angiotensin-converting ectoenzyme (ACE). In this study, we have validated an indicator-dilution technique that provides estimations of dynamically perfused capillary surface area (DPCSA) in humans, and we have characterized pulmonary endothelial ACE in vivo. METHODS AND RESULTS: In 12 adults, single-pass transpulmonary (one or both lungs) hydrolysis of the specific ACE substrate 3H-benzoyl-Phe-Ala-Pro (3H-BPAP) was measured and expressed as % metabolism (%M) and v=-ln(1-M). We also calculated Amax/Km, an index of DPCSA. %M (70.1+/-3.2 vs 67.9+/-3.1) and v (1.29+/-0.14 vs 1. 20+/-0.12) were similar in both lungs and the right lung, respectively, whereas Amax/Km//body surface area decreased from 2460+/-193 to 1318+/-115 mL/min per square meter. CONCLUSIONS: Pulmonary endothelial ACE activity can be assessed in humans at the bedside by means of indicator-dilution techniques. Our data suggest homogeneous pulmonary capillary ACE concentrations and capillary transit times (tc) in both human lungs, and similar tc within the normal range of cardiac index. Amax/Km in the right lung is 54% of total Amax/Km in both lungs, suggesting that Amax/Km is a reliable and quantifiable index of DPCSA in humans.
BACKGROUND: Pulmonary endothelium has metabolic functions including the conversion of angiotensin I to angiotensin II by angiotensin-converting ectoenzyme (ACE). In this study, we have validated an indicator-dilution technique that provides estimations of dynamically perfused capillary surface area (DPCSA) in humans, and we have characterized pulmonary endothelial ACE in vivo. METHODS AND RESULTS: In 12 adults, single-pass transpulmonary (one or both lungs) hydrolysis of the specific ACE substrate 3H-benzoyl-Phe-Ala-Pro (3H-BPAP) was measured and expressed as % metabolism (%M) and v=-ln(1-M). We also calculated Amax/Km, an index of DPCSA. %M (70.1+/-3.2 vs 67.9+/-3.1) and v (1.29+/-0.14 vs 1. 20+/-0.12) were similar in both lungs and the right lung, respectively, whereas Amax/Km//body surface area decreased from 2460+/-193 to 1318+/-115 mL/min per square meter. CONCLUSIONS: Pulmonary endothelial ACE activity can be assessed in humans at the bedside by means of indicator-dilution techniques. Our data suggest homogeneous pulmonary capillary ACE concentrations and capillary transit times (tc) in both human lungs, and similar tc within the normal range of cardiac index. Amax/Km in the right lung is 54% of total Amax/Km in both lungs, suggesting that Amax/Km is a reliable and quantifiable index of DPCSA in humans.
Authors: Francesca Polverino; Maria E Laucho-Contreras; Hans Petersen; Vanesa Bijol; Lynette M Sholl; Mary E Choi; Miguel Divo; Victor Pinto-Plata; Alfredo Chetta; Yohannes Tesfaigzi; Bartolomé R Celli; Caroline A Owen Journal: Am J Respir Crit Care Med Date: 2017-06-01 Impact factor: 21.405
Authors: Vladimir V Shuvaev; Melpo Christofidou-Solomidou; Arnaud Scherpereel; Eric Simone; Evguenia Arguiri; Samira Tliba; Jeremy Pick; Stephen Kennel; Steven M Albelda; Vladimir R Muzykantov Journal: J Control Release Date: 2007-01-08 Impact factor: 9.776
Authors: Corey E Ventetuolo; Joao A C Lima; R Graham Barr; Michael R Bristow; Emilia Bagiella; Harjit Chahal; Jorge R Kizer; David J Lederer; David A Bluemke; Steven M Kawut Journal: Pulm Circ Date: 2012-07 Impact factor: 3.017