Vidal-Quist José Cristian, Ortego Félix, Lambrecht Bart N, Rombauts Stephane, Hernández-Crespo Pedro
Departamento de Biotecnología, Entomología Aplicada a la Agricultura y la Salud, Centro de Investigaciones Biológicas Margarita Salas (CIB), CSIC, Madrid, Spain.
VIB-UGent Center for Inflammation Research, Ghent, Belgium.
BMC Genomics. 2025 May 26;26(1):527. doi: 10.1186/s12864-025-11703-w.
House dust mites (HDMs) such as Dermatophagoides pteronyssinus are major allergy elicitors worldwide, yet their gene expression across developmental stages remains underexplored. Herein, we report a comprehensive RNAseq analysis of larvae, nymphs, and adult males and females, mapped to a recently published high-quality genome with extended functional annotations.
Analysis of differentially expressed genes (DEG) revealed that female-biased expression was the most prevalent profile (16% of genes), while males exhibited the highest fold-change differences. DEG data, combined with network clustering and functional enrichment analysis, highlighted distinct genes and biological processes for each stage and sex: females showed upregulation of genes related to cell division and oogenesis, with vitellogenins among the most abundant transcripts; males exhibited increased expression of genes encoding putative seminal fluid proteins (e.g. endopeptidases, serpins, antimicrobial peptides), and those involved in reproductive regulation (e.g. testis-specific serine kinases); while juveniles displayed enhanced expression of genes related to energy metabolism and growth. Further analysis of endocrine pathways revealed non-canonic mechanisms compared to insect models, particularly in ecdysteroid and sesquiterpenoid biosynthesis and regulation. Expression patterns in genes involved in cuticle formation were also identified, reflecting their role in developmental transitions and sexual differentiation. Allergen and allergen-related gene expression showed an overall increase in feeding juveniles, as well as sex-biased expression, with Der p 27 upregulated in females. These findings provide insight into the physiological roles of allergens in digestion, immunity, and muscle formation, among other functions. Additionally, seven new horizontally transferred genes, including a DNA-repair photolyase linked to females, and novel multigene families (e.g. 119 male-specific beta-propeller proteins, 70 hypothetical cuticular proteins, 23 tetraspanin-like proteins, 5 female-associated putative odorant-binding proteins) were identified.
This study provides the first genome-wide transcriptomic analysis of a HDM across life stages and sexes, expanding our understanding of the molecular mechanisms underlying mite development, sexual reproduction, and allergen expression. The generated data, fully available via supplementary spreadsheet and the ORCAE online platform, provide a valuable foundation for future allergy research and the development of new mite control strategies.
屋尘螨(如粉尘螨)是全球主要的过敏原诱发物,但其在不同发育阶段的基因表达仍未得到充分研究。在此,我们报告了对幼虫、若虫、成年雄性和雌性进行的全面RNA测序分析,这些数据已映射到最近发表的具有扩展功能注释的高质量基因组上。
对差异表达基因(DEG)的分析表明,女性偏向表达是最普遍的模式(占基因的16%),而男性表现出最大的倍数变化差异。DEG数据与网络聚类和功能富集分析相结合,突出了每个阶段和性别的不同基因及生物学过程:雌性显示与细胞分裂和卵子发生相关的基因上调,卵黄蛋白原是最丰富的转录本之一;雄性表现出编码假定精液蛋白(如内肽酶、丝氨酸蛋白酶抑制剂、抗菌肽)以及参与生殖调节(如睾丸特异性丝氨酸激酶)的基因表达增加;而幼虫则显示与能量代谢和生长相关的基因表达增强。对内分泌途径的进一步分析揭示了与昆虫模型相比的非典型机制,特别是在蜕皮甾类和倍半萜生物合成及调节方面。还确定了参与角质层形成的基因的表达模式,反映了它们在发育转变和性别分化中的作用。过敏原和与过敏原相关的基因表达在进食的幼虫中总体增加,并且存在性别偏向表达,Der p 27在雌性中上调。这些发现为过敏原在消化、免疫和肌肉形成等功能中的生理作用提供了见解。此外,还鉴定出七个新的水平转移基因,包括一个与雌性相关的DNA修复光解酶,以及新的多基因家族(如119个雄性特异性β-螺旋桨蛋白、70个假定的角质层蛋白、23个四跨膜蛋白样蛋白、5个与雌性相关的假定气味结合蛋白)。
本研究首次对屋尘螨在生命阶段和性别上进行了全基因组转录组分析,扩展了我们对螨类发育、有性繁殖和过敏原表达潜在分子机制的理解。通过补充电子表格和ORCAE在线平台可完全获取所生成的数据,为未来的过敏研究和新的螨类控制策略的开发提供了有价值的基础。
