Loyet Kelly M, Good Jeremy, Davancaze Teresa, Sturgeon Lizette, Wang Xiangdan, Yang Jihong, Le Kha N, Wong Maureen, Hass Philip E, van Lookeren Campagne Menno, Haughney Peter C, Morimoto Alyssa, Damico-Beyer Lisa A, DeForge Laura E
Departments of Biochemical and Cellular Pharmacology (K.M.L., L.S., L.E.D.), Assay Development and Technologies (J.G., T.D., M.W., A.M.), BioAnalytical Sciences (X.W., J.Y.), Pharmacokinetics and Pharmacodynamics (K.N.L., P.C.H., L.A.D.-B.), Protein Chemistry (P.E.H.), and Immunology (M.v.L.C.), Genentech, South San Francisco, California
Departments of Biochemical and Cellular Pharmacology (K.M.L., L.S., L.E.D.), Assay Development and Technologies (J.G., T.D., M.W., A.M.), BioAnalytical Sciences (X.W., J.Y.), Pharmacokinetics and Pharmacodynamics (K.N.L., P.C.H., L.A.D.-B.), Protein Chemistry (P.E.H.), and Immunology (M.v.L.C.), Genentech, South San Francisco, California.
J Pharmacol Exp Ther. 2014 Dec;351(3):527-37. doi: 10.1124/jpet.114.215921. Epub 2014 Sep 17.
Anti-factor D (AFD; FCFD4514S, lampalizumab) is a humanized IgG Fab fragment directed against factor D (fD), a rate-limiting serine protease in the alternative complement pathway (AP). Evaluation of AFD as a potential intravitreal (IVT) therapeutic for dry age-related macular degeneration patients with geographic atrophy (GA) is ongoing. However, it is unclear whether IVT administration of AFD can affect systemic AP activation and potentially compromise host-immune responses. We characterized the pharmacologic properties of AFD and assessed the effects of AFD administered IVT (2 or 20 mg) or intravenous (0.2, 2, or 20 mg) on systemic complement activity in cynomolgus monkeys. For the IVT groups, serum AP activity was reduced for the 20 mg dose group between 2 and 6 hours postinjection. For the intravenous groups, AFD inhibited systemic AP activity for periods of time ranging from 5 minutes (0.2 mg group) to 3 hours (20 mg group). Interestingly, the concentrations of total serum fD increased up to 10-fold relative to predose levels following administration of AFD. Furthermore, AFD was found to inhibit systemic AP activity only when the molar concentration of AFD exceeded that of fD. This occurred in cynomolgus monkeys at serum AFD levels ≥2 µg/ml, a concentration 8-fold greater than the maximum serum concentration observed following a single 10 mg IVT dose in a clinical investigation in patients with GA. Based on these findings, the low levels of serum AFD resulting from IVT administration of a clinically relevant dose are not expected to appreciably affect systemic AP activity.
抗D因子(AFD;FCFD4514S,兰帕利单抗)是一种人源化IgG Fab片段,靶向D因子(fD),后者是替代补体途径(AP)中的限速丝氨酸蛋白酶。目前正在评估AFD作为干性年龄相关性黄斑变性伴地图样萎缩(GA)患者玻璃体内(IVT)治疗药物的潜力。然而,尚不清楚IVT给予AFD是否会影响全身AP激活并可能损害宿主免疫反应。我们对AFD的药理特性进行了表征,并评估了IVT给予AFD(2或20 mg)或静脉注射(0.2、2或20 mg)对食蟹猴全身补体活性的影响。对于IVT组,20 mg剂量组在注射后2至6小时血清AP活性降低。对于静脉注射组,AFD在5分钟(0.2 mg组)至3小时(20 mg组)的时间段内抑制全身AP活性。有趣的是,给予AFD后,总血清fD浓度相对于给药前水平增加了10倍。此外,仅当AFD的摩尔浓度超过fD时,才发现AFD抑制全身AP活性。在食蟹猴中,当血清AFD水平≥2 µg/ml时会出现这种情况,该浓度比GA患者临床研究中单次10 mg IVT剂量后观察到的最大血清浓度高8倍。基于这些发现,临床相关剂量IVT给药导致的低水平血清AFD预计不会明显影响全身AP活性。
