Kurita Sena, Miyamoto Ryo, Tani Hiroyuki, Kobayashi Masato, Sasaki Takashi, Tamura Kyoichi, Bonkobara Makoto
Department of Veterinary Clinical Pathology, Nippon Veterinary and Life Science University, Tokyo, Japan.
Animal Research Center, Sapporo Medical University School of Medicine, Sapporo, Japan.
J Vet Pharmacol Ther. 2019 Nov;42(6):673-681. doi: 10.1111/jvp.12816. Epub 2019 Sep 25.
One of the potential mechanisms underlying acquired resistance to toceranib in canine mast cell tumor (MCT) is the emergence of a secondary mutation in the KIT gene. Here, genetic alterations of KIT during clonal expansion and subsequent acquisition of resistance to toceranib were investigated in the toceranib-susceptible canine MCT cell line VI-MC, which carries a KIT-activating mutation resulting in a predicted p.(Asn508Ile) amino acid change in the receptor tyrosine kinase protein KIT. Two sublines were cloned from VI-MC and toceranib-resistant sublines then were established by continuous exposure to toceranib. The mutation status of KIT in parental VI-MC and its sublines was investigated using next-generation sequencing (NGS). Additionally, effects of secondary mutations on toceranib sensitivity in p.(Asn508Ile)-mutant KIT were examined. KIT secondary mutations, including those encoding p.(Asn679Lys)-, p.(Asp819Val)-, and p.(Asp819Gly)-mutant KIT, that confer toceranib insensitivity to p.(Asn508Ile)-mutant KIT emerged only in toceranib-resistant VI-MCs. These mutations were not detected by NGS in the parental VI-MC line or in the toceranib-naive cloned VI-MCs, although the parental line and sublines exhibited genetic heterogeneity in KIT that may have been caused by genetic evolution during clonal expansion. VI-MC clones with these secondary mutations in KIT appear to have arisen from subclones during treatment with toceranib rather than being pre-existing. However, further study using a higher resolution technique will be needed to confirm the developmental mechanism of KIT secondary mutation in canine MCT cells with acquired resistance to toceranib.
犬肥大细胞瘤(MCT)对托西替尼产生获得性耐药的潜在机制之一是KIT基因中出现二次突变。在此,我们对托西替尼敏感的犬MCT细胞系VI-MC进行了研究,该细胞系携带KIT激活突变,导致受体酪氨酸激酶蛋白KIT中预测的p.(Asn508Ile)氨基酸变化,研究了克隆扩增过程中KIT的基因改变以及随后对托西替尼的耐药性获得情况。从VI-MC克隆出两个亚系,然后通过持续暴露于托西替尼建立了对托西替尼耐药的亚系。使用下一代测序(NGS)研究了亲本VI-MC及其亚系中KIT的突变状态。此外,还研究了二次突变对p.(Asn508Ile)突变型KIT中托西替尼敏感性的影响。赋予p.(Asn508Ile)突变型KIT对托西替尼不敏感的KIT二次突变,包括编码p.(Asn679Lys)-、p.(Asp819Val)-和p.(Asp819Gly)-突变型KIT的突变,仅在对托西替尼耐药的VI-MC中出现。尽管亲本系和亚系在KIT中表现出遗传异质性,这可能是由克隆扩增过程中的基因进化引起的,但在亲本VI-MC系或未接触过托西替尼的克隆VI-MC中,NGS未检测到这些突变。具有这些KIT二次突变的VI-MC克隆似乎是在托西替尼治疗期间从亚克隆中产生的,而不是预先存在的。然而,需要使用更高分辨率的技术进行进一步研究,以确认犬MCT细胞中KIT二次突变对托西替尼获得性耐药的发生机制。
