McKusick-Nathans Institute of Genetic Medicine, Johns Hopkins University School of Medicine, Baltimore, MD, USA.
Respir Res. 2010 Oct 8;11(1):140. doi: 10.1186/1465-9921-11-140.
Lung infection by various organisms is a characteristic feature of cystic fibrosis (CF). CFTR genotype effects acquisition of Pseudomonas aeruginosa (Pa), however the effect on acquisition of other infectious organisms that frequently precede Pa is relatively unknown. Understanding the role of CFTR in the acquisition of organisms first detected in patients may help guide symptomatic and molecular-based treatment for CF.
Lung infection, defined as a single positive respiratory tract culture, was assessed for 13 organisms in 1,381 individuals with CF. Subjects were divided by predicted CFTR function: 'Residual': carrying at least one partial function CFTR mutation (class IV or V) and 'Minimal' those who do not carry a partial function mutation. Kaplan-Meier estimates were created to assess CFTR effect on age of acquisition for each organism. Cox proportional hazard models were performed to control for possible cofactors. A separate Cox regression was used to determine whether defining infection with Pa, mucoid Pa or Aspergillus (Asp) using alternative criteria affected the results. The influence of severity of lung disease at the time of acquisition was evaluated using stratified Cox regression methods by lung disease categories.
Subjects with 'Minimal' CFTR function had a higher hazard than patients with 'Residual' function for acquisition of 9 of 13 organisms studied (HR ranging from 1.7 to 3.78 based on the organism studied). Subjects with minimal CFTR function acquired infection at a younger age than those with residual function for 12 of 13 organisms (p-values ranging: < 0.001 to 0.017). Minimal CFTR function also associated with younger age of infection when 3 alternative definitions of infection with Pa, mucoid Pa or Asp were employed. Risk of infection is correlated with CFTR function for 8 of 9 organisms in patients with good lung function (>90%ile) but only 1 of 9 organisms in those with poorer lung function (<50%ile).
Residual CFTR function correlates with later onset of respiratory tract infection by a wide spectrum of organisms frequently cultured from CF patients. The protective effect conferred by residual CFTR function is diminished in CF patients with more advanced lung disease.
各种生物体引起的肺部感染是囊性纤维化(CF)的一个特征。CFTR 基因型影响铜绿假单胞菌(Pa)的获得,然而对 CF 患者常先于 Pa 感染的其他传染性生物体的获得的影响相对未知。了解 CFTR 在首次检测到的生物体获得中的作用可能有助于指导 CF 的症状和基于分子的治疗。
肺部感染定义为单次呼吸道培养阳性,对 1381 名 CF 患者的 13 种生物体进行了评估。根据预测的 CFTR 功能将受试者分为:“残余”:携带至少一种部分功能 CFTR 突变(IV 类或 V 类)和“最小”:不携带部分功能突变。使用 Kaplan-Meier 估计评估 CFTR 对每种生物体获得年龄的影响。使用 Cox 比例风险模型控制可能的协变量。使用单独的 Cox 回归来确定使用替代标准定义 Pa、粘液化 Pa 或曲霉(Asp)感染是否会影响结果。使用分层 Cox 回归方法根据肺部疾病类别评估获得时肺部疾病严重程度的影响。
具有“最小”CFTR 功能的受试者比具有“残余”功能的受试者更有可能获得 13 种研究生物体中的 9 种(基于所研究的生物体,HR 范围为 1.7 至 3.78)。在 13 种生物体中,12 种生物体的最小 CFTR 功能的受试者比具有残余功能的受试者更早获得感染(p 值范围:<0.001 至 0.017)。当使用 3 种替代的 Pa、粘液化 Pa 或 Asp 感染定义时,最小 CFTR 功能也与更早的感染年龄相关。在肺功能良好(>90%)的 CF 患者中,8 种 9 种生物体的感染风险与 CFTR 功能相关,但在肺功能较差(<50%)的患者中,只有 1 种 9 种生物体的感染风险与 CFTR 功能相关。
残余 CFTR 功能与 CF 患者经常培养的广泛的呼吸道感染的发病时间较晚相关。在肺部疾病更严重的 CF 患者中,残余 CFTR 功能的保护作用减弱。
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