Hong Zheng1, Hai-Ping Ma1, Wei-fang Xu1, Yong-Qiang Zhang1, Jian-jiang Wu1, Jiang Wang2. 1. Department of Anesthesiology, The First Affiliated Hospital of Xinjiang Medical University, Urumqi 830054, China. 2. Department of Anesthesiology, The First Affiliated Hospital of Xinjiang Medical University, Urumqi 830054, China. Electronic address: wangjiang@sina.cn.
Abstract
INTRODUCTION: Given its central role in mediating heparin-induced anti-coagulation, antithrombin (AT) gene mutations may result in heparin resistance. This study investigates the relationship between familial AT gene mutations and tolerance to heparin. METHODS: The medical history of a male patient with heparin resistance who received heart surgery and six of his family members was reviewed. Activated partial thromboplastin time (APTT), prothrombin time (PT), fibrinogen (Fib), D-dimer (D=D), and platelet count were determined to assess coagulation function. AT activity and the AT gene were also analyzed. For the newly identified gene mutations, polymorphisms were excluded in 120 healthy Kazak controls. RESULTS: Two mutations were identified in exon 7 of the AT gene, SERPINC1: g.1267G>A (p.A391T) found in five participants, including the index patient, and g.1334G>A, a silent mutation, in two family members. The g.1267G>A mutation may alter focal AT protein conformation. Neither of these mutations was observed in the healthy Kazak controls. Although all coagulation parameters and AT activity were within the normal ranges for the index patient and his family members, the platelet levels were significantly lower than that observed for the healthy Kazak controls (p=0.001). There was no significant difference in AT antigen levels between the groups; however, participants with the g.1267G>A mutation had a 44.25% reduction in heparin binding compared to the control group (p<0.001). CONCLUSION: We identified a novel hereditary mutation, g.1267G>A (p.A391T), in the AT gene, which reduces its heparin binding capacity and might be associated with resistance to heparin.
INTRODUCTION: Given its central role in mediating heparin-induced anti-coagulation, antithrombin (AT) gene mutations may result in heparin resistance. This study investigates the relationship between familial AT gene mutations and tolerance to heparin. METHODS: The medical history of a male patient with heparin resistance who received heart surgery and six of his family members was reviewed. Activated partial thromboplastin time (APTT), prothrombin time (PT), fibrinogen (Fib), D-dimer (D=D), and platelet count were determined to assess coagulation function. AT activity and the AT gene were also analyzed. For the newly identified gene mutations, polymorphisms were excluded in 120 healthy Kazak controls. RESULTS: Two mutations were identified in exon 7 of the AT gene, SERPINC1: g.1267G>A (p.A391T) found in five participants, including the index patient, and g.1334G>A, a silent mutation, in two family members. The g.1267G>A mutation may alter focal AT protein conformation. Neither of these mutations was observed in the healthy Kazak controls. Although all coagulation parameters and AT activity were within the normal ranges for the index patient and his family members, the platelet levels were significantly lower than that observed for the healthy Kazak controls (p=0.001). There was no significant difference in AT antigen levels between the groups; however, participants with the g.1267G>A mutation had a 44.25% reduction in heparin binding compared to the control group (p<0.001). CONCLUSION: We identified a novel hereditary mutation, g.1267G>A (p.A391T), in the AT gene, which reduces its heparin binding capacity and might be associated with resistance to heparin.