Cumming School of Medicine, University of Calgary, Calgary, Alberta, Canada.
Lupus. 2019 Oct;28(11):1285-1293. doi: 10.1177/0961203319868531. Epub 2019 Aug 9.
Autoantibodies (AA) and antinuclear antibodies (ANA) serve as key diagnostic and classification criteria for systemic lupus erythematosus (SLE). More than 200 different AA have been reported in SLE, although only a handful (<20) are considered "mainstream" because they are widely and routinely used in diagnostic, research and clinical medicine. Although the vast majority of AA have been relegated to the diminished status of "orphan" AA, some serve as predictors of SLE because they first appear in very early or subclinical SLE. Some AA are pathogenic, whereas others are thought to protect against or ameliorate disease progression and, hence, taken together can be used as predictive biomarkers of prognosis. Although studies have shown that specific AA are detected in the preclinical phase of SLE and are biomarkers of increased risk of developing the disease, AA are currently not widely used to predict very early SLE in individuals who have low pretest probability of disease. With the advent of multianalyte arrays with analytic algorithms, emerging evidence indicates that when certain combinations of biomarkers, such as the interferon signature and stem cell factor accompany AA and ANA, the predictive power for SLE is markedly increased.
自身抗体 (AA) 和抗核抗体 (ANA) 是系统性红斑狼疮 (SLE) 的重要诊断和分类标准。尽管只有少数 (<20) 种被认为是“主流”,因为它们广泛且常规地用于诊断、研究和临床医学,但在 SLE 中已报道了超过 200 种不同的 AA。虽然绝大多数 AA 已被贬为“孤儿” AA,但有些 AA 可作为 SLE 的预测因子,因为它们首先出现在非常早期或亚临床 SLE 中。一些 AA 具有致病性,而另一些则被认为可以预防或改善疾病进展,因此,它们可以共同用作预后的预测生物标志物。尽管研究表明,在 SLE 的临床前阶段可以检测到特定的 AA,并且是疾病风险增加的生物标志物,但目前 AA 并未广泛用于预测疾病前期低可能性的个体中的早期 SLE。随着具有分析算法的多分析物阵列的出现,新出现的证据表明,当某些生物标志物组合(如干扰素特征和干细胞因子)与 AA 和 ANA 一起出现时,SLE 的预测能力会显著提高。
