Background
Kawasaki disease (KD) is a systemic vasculitis first described by Dr. Kawasaki in 1974 in Japan [
1]. It primality affects children below 5 years old, especially in Asian countries. The incidence of KD is highest in Japan, Korea and Taiwan ranging from 66/100,000 to 234/100,000 in children younger than 5 years old [
2,
3]. The exact etiology of KD is not known [
4]. Both genetic and environmental factors have been reported to play important role in KD [
5]. The most common sequel of KD is coronary artery lesions (CAL), which is known to predominantly occur in young children (84% ~ 86% of all cases occur in children between 6 months and 5 years of age) with a male predominance (approximately 1.5 ~ 1.8 times higher than females) [
6,
7]. CAL included coronary artery dilation, aneurysms, or fistula formation. All patients were identified only by echocardiography.
Antiplatelet therapy is routinely applied in KD treatment. Elevated platelet counts often develop in the acute phase of KD. This causes hyperplatelet function in which platelets become adherent, deformed, aggregates and release various cytokines and inflammatory factors. As a consequence, blood hypercoagulates causing vascular endothelial injury, collagen exposure, and triggers chemotaxis of various cytokines, all of which results in the formation of vascular inflammatory lesions [
8]. Low-dose aspirin was recommended to prevent platelet activation and aggregation. All the patients received low doses of aspirin(3–5 mg/kg/day).Integrin α2 (ITGA2), which encodes the alpha subunit of the transmembrane receptor for collagens and related proteins, is located on chromosome 5q23–31 [
9]. The encoded protein forms a heterodimer with a beta subunit responsible for adhesion of platelets and other cell types to the extracellular matrix. KD is defined as a vascular injury disease similar to arterial thrombosis. Mutations of the ITGA2 gene have been associated with vascular injury. It is therefore likely that a correlation exists between ITGA2 and KD. A meta-analysis suggested that ITGA2 rs1126643 affected susceptibility to aspirin insensitivity [
10]. The average frequency of the ITGA2 gene rs1126643-T allele was 40.77% in Caucasian patients with aspirin insensitivity but was 58.58% in Chinese patients [
10]. Here, we investigated whether ITGA2 SNP (rs1126643) polymorphism influences susceptibility to CAL in a cohort of 785 KD patients with or without CAL in the Chinese population.
Discussion
Here, we reveal an association of the ITGA2 gene (rs1126643) polymorphism with the risk of KD in 300 patients with CAL and 485 patients with NCAL. Specifically, the ITGA2 rs1126643 CT/TT was associated with an increased risk of KD patients with CAL, especially in children ≤60 months of age and males. Stratified analysis demonstrated that the ITGA2 rs1126643 CT/TT variant elevated the risk of KD progressing into SCAL and MCAL. To our knowledge, this is the first study to show that ITGA2 rs1126643 polymorphism is associated with KD coronary artery lesion susceptibility.
Integrins are adhesion molecules that promote platelet aggregation, hence the formation of blood clots [
13]. ITGA2 is an important platelet receptor for collagen and regulates platelet activation by facilitating platelet adhesion and aggregation to the exposed surface of the subendothelial collagen fiber [
14]. The gene encoding ITGA2 contains a number of polymorphisms, such as ischemic stroke and idiopathic sudden sensorineural hearing loss (iSSNHL) [
15,
16]. ITGA2 has been implicated in thrombotic and arterial atherosclerotic disease. As a key member of the integrin family of adhesion molecules, ITGA2 mediates cell-cell, cell-matrix, and cell-matrix-cell adhesions [
17]. It therefore affects various physiological and pathological processes such as inflammatory reactions, immune responses, atherosclerosis, and thrombosis [
18]. KD is characterized by multisystem involvement and inflammation of all medium-sized arteries, including the coronary artery [
19]. High infiltration of inflammatory cells in KD vascular tissues cause vascular damage during the acute febrile phase of KD [
20]. In our study, we found that ITGA2 rs1126643 was a harmful factor with KD coronary artery lesions. To our knowledge, this is the first study to validate the association of ITGA2 rs1126643 with KD coronary artery lesions risk in a Chinese population. It may play a significant role in the pathogenesis of KD coronary artery lesions.
Although the etiology of KD is elusive, a genome-wide association study (GWAS) showed that single-nucleotide polymorphisms (SNPs) of AGT, NEBL, ITPKS, TGF-β, and KCNN2 may be modify the occurrence of CAL in KD [
21‐
25]. To date, no study has explored the association of ITGA2 with KD coronary artery lesions. In the present study, we found that ITGA2 rs1126643 was associated with increased KD with coronary artery lesion susceptibility in the Chinese population. Stratified analysis showed that ITGA2 rs1126643 prevented the formation of SCAL and MCAL with KD.
Compared with the rs1126643 CC genotype, the harmful effect of the CT/TT variant genotype was more pronounced in children ≤60 months of age and in males. This finding is consistent with results of other studies [
11,
26]. KD with CAL results in more apparent effects in young children below 60 months of age. The peak age of onset ranged from 9 to 11 months, and the male to female ratio was 1.5 to 1 [
11,
26,
27]. Our results indicate that ITGA2 gene polymorphism is among the important factors affecting CAL in children with KD with CAL. Therefore, children with KD CAL may be predisposed to CAL and should be monitored to initiate early prevention and treatment. However, these results are based on a small sample size. In addition, we only collected ethnicity, geographical factors, age and sex as cases and controls. However, other ITGA2 gene polymorphisms were not involved in this study.
These results underscore the need to monitor the possibility of CAL in children with KD based on ITGA2 gene mutation. Early initiation of interventions will reduce the risk of mortality caused by CAL in children with KD.
Conclusion
In summary, this study confirms that ITGA2 rs1126643 is associated with increased KD and coronary artery lesion susceptibility. However, future studies with larger sample sizes and practical experiments should be conducted to explore the roles of the ITGA2 gene in KD with coronary artery lesion susceptibility and severity.
Acknowledgements
The authors would like to thank the Clinical Biological Resource Bank of Guangzhou Women and Children’s Medical Center for providing all clinical samples and the Guangdong Early Childhood Development Applied Engineering and Technology Research Center.
The authors would like to thank the Clinical Biological Resource Bank of Guangzhou Women and Children’s Medical Center for providing all the clinical samples. And thank the Guangdong Early Childhood Development Applied Engineering and Technology Research Center providing scientific research platform support.
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