医学
赫拉
塞库金单抗
计算生物学
生物信息学
精密医学
基因组编辑
基因组学
突变
个性化医疗
银屑病
靶向治疗
遗传学
基因
神经母细胞瘤RAS病毒癌基因同源物
基因突变
治疗方法
作者
Marra Aghajani,Jingwen Lu,John W. Frew,Deshan F. Sebaratnam
摘要
Advances in genomics have redefined inflammatory linear verrucous epidermal naevus (ILVEN) as a mosaic inflammatory disorder with diverse molecular drivers, enabling more precise diagnostic and therapeutic strategies. This review aimed to summarize the published data on genotype-phenotype correlations and associated targeted therapies in ILVEN and ILVEN-like disorders. A structured literature search was conducted using PubMed, Embase and Google Scholar, focusing on peer-reviewed studies describing mutations, pathomechanisms and treatment responses in ILVEN or ILVEN-mimicking dermatoses. Search terms included "ILVEN", "mosaic inflammatory dermatoses", "genetic mutations" and "targeted therapy". Multiple genes have been implicated in ILVEN. Somatic mutations in CARD14 activate NF-κB and IL-12/23/IL-17 signalling pathways and may be responsive to biologics such as secukinumab and ustekinumab. Mutations in NSDHL and PMVK, involved in cholesterol biosynthesis, are associated with ILVEN-like presentations and may respond to topical statin/cholesterol therapy. KRT10 mutations, which affect keratinocyte differentiation, show favourable responses to crisaborole and acitretin. GJA1 mutations disrupt connexin 43 function, resulting in ILVEN-Erythrokeratodermia Variabilis et Progressiva (EKVP) overlap and may respond to retinoids. HRAS mosaicism activates the RAS-MAPK pathway, supporting the theoretical use of MEK inhibitors. Recessive mosaicism in ABCA12 can produce linear, ILVEN-like lesions due to defective lipid barrier formation, with potential responsiveness to lipid-replenishing therapies and IL-17 blockade. The molecular characterization of ILVEN and related disorders supports a shift toward precision dermatology. As accessibility increases, genotype-directed therapy may replace empiric approaches with more targeted, effective and personalized management frameworks.
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