Thakur Sheetal, Spruijtenburg Bram, Shaw Dipika, de Groot Theun, Meijer Eelco F J, Narang Tarun, Dogra Sunil, Chakrabarti Arunaloke, Meis Jacques F, Rudramurthy Shivaprakash M
Department of Dermatology, Venereology, and Leprology, Postgraduate Institute of Medical Education and Research, Chandigarh, 160012, India.
Department of Medical Microbiology, Postgraduate Institute of Medical Education and Research, Chandigarh, 160012, India.
Mycopathologia. 2025 Jan 9;190(1):13. doi: 10.1007/s11046-024-00920-8.
Trichophyton indotineae, first identified in India, has increasingly been reported in Asia, the Middle East, Europe, and recently in the USA. The global spread of terbinafine-resistant T. indotineae underscores the urgency of the issue. With its ability for human-to-human transmission, it can be considered anthropophilic. However, its highly virulent nature suggests a possible link to zoophilic species, raising the potential for disease transmission from animals. In this study, we have performed whole genome sequencing (WGS) of terbinafine susceptible and resistant Trichophyton species from animal and human origin to understand transmission dynamics of this species. Thirteen isolates of Trichophyton spp. from human (n = 9) and canine (n = 4) origin, respectively from Chandigarh and Bareilly, India, were included in this study. Isolate identification based on ITS extracted from WGS data identified six T. indotineae (ITS genotype VIII) and seven T. interdigitale (ITS genotype II) isolates. WGS single nucleotide polymorhpism (SNP) analysis separated the isolates into two distinct groups, T. indotineae and T. interdigitale and showed the clonal nature of both species. For both species, low SNP differences between isolates from humans and dogs were observed as well as low differences between isolates from Chandigarh and Bareilly, cities >350 km apart from each other. These findings suggest zoonotic transmission, next to fast spread across large distances. The T. indotineae terbinafine-resistant strains exhibited the SQLE substitution while susceptible strains had the SQLE substitution or demonstrated a wild-type (WT) SQLE sequence. However, all T. interdigitale strains displayed a WT SQLE sequence despite terbinafine minimum inhibitory concentrations (MICs) ranging between 0.031 to 64 µg/mL.
印地毛癣菌最初在印度被发现,在亚洲、中东、欧洲以及最近在美国的报道日益增多。对特比萘芬耐药的印地毛癣菌在全球的传播凸显了该问题的紧迫性。因其具有人际传播能力,可被视为亲人性的。然而,其高致病性表明它可能与亲动物性物种存在联系,增加了动物传播疾病的可能性。在本研究中,我们对来自动物和人类的特比萘芬敏感及耐药的毛癣菌进行了全基因组测序(WGS),以了解该菌种的传播动态。本研究纳入了分别来自印度昌迪加尔和巴雷利的13株人源(n = 9)和犬源(n = 4)的毛癣菌分离株。基于从WGS数据中提取的ITS进行的分离株鉴定,确定了6株印地毛癣菌(ITS基因型VIII)和7株指间毛癣菌(ITS基因型II)分离株。WGS单核苷酸多态性(SNP)分析将分离株分为两个不同的组,即印地毛癣菌和指间毛癣菌,并显示了这两个菌种的克隆性质。对于这两个菌种,在人和狗的分离株之间以及在相距超过350公里的昌迪加尔和巴雷利两个城市的分离株之间,均观察到较低的SNP差异。这些发现表明,除了能远距离快速传播外,还存在人畜共患传播。印地毛癣菌的特比萘芬耐药菌株表现出SQLE替代,而敏感菌株具有SQLE替代或显示野生型(WT)SQLE序列。然而,尽管特比萘芬的最低抑菌浓度(MIC)在0.031至64μg/mL之间,但所有指间毛癣菌菌株均显示野生型SQLE序列。
