EGFR mutations in sinonasal squamous tumors: oncogenic and therapeutic implications

A. Udager, J. Mchugh, K. Elenitoba-Johnson, N. Brown
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While ESP is associated with infection by low-risk human papillomavirus (HPV) in 55% - 65% [1, 3], most studies have demonstrated significantly lower HPV detections rates for ISP [3, 4]. Similarly, less than half of SNSCC are associated with HPV infection [3, 4] and the incidence in SNSCC associated with ISP may be even lower [5]. These data suggest that while HPV infection may play a role in the pathogenesis of a subset of these tumors, it is not the only factor involved in SNP and SNSCC oncogenesis. \n \nIn a recent study, our group identified activating somatic EGFR mutations in 88% of ISP and 77% of SNSCC associated with ISP [6]. Importantly, while a variety of different EGFR mutations were found in these tumors, concordant EGFR genotypes were identified for all matched pairs of ISP and synchronous or metachronous SNSCC. Therefore, this study provided the first molecular evidence to support the role of ISP as a precursor lesion for SNSCC. In addition, EGFR mutation status was a significant prognostic factor for ISP, with EGFR wild-type tumors showing earlier progression to SNSCC. No EGFR mutations were identified in ESP, OSP, or SNSCC not associated with ISP, suggesting that the ISP/SNSCC disease spectrum is biologically distinct from these other sinonasal squamous tumors. \n \nThe oncogenic role of EGFR mutations was supported in this study by functional experiments. In cell lines derived from ISP-associated SNSCC, EGFR mutations were shown to result in activation of EGFR as well as downstream constituents of the MAPK and PI3K/AKT/mTOR signaling pathways. Taken together, these functional studies and the high frequency of EGFR mutations suggest that dysregulated EGFR signaling plays a central role in the oncogenesis of ISP and associated SNSCC – a finding that is an apparent departure from prior paradigms involving HPV infection [1]. These findings, however, do not strictly preclude a role for HPV in these tumors. The HPV-associated E5 oncoprotein has been shown to inhibit EGFR degradation, alter endosomal trafficking of EGFR and activate proteins downstream of EGFR in a ligand-independent manner [7] (Figure ​(Figure1).1). Thus, it is plausible that altered EGFR signaling itself – either as a result of somatic activating EGFR mutations or HPV-associated E5 oncoprotein – is important in the development and evolution of ISP. \n \n \n \nFigure 1 \n \nPossible mechanisms of ISP oncogenesis and malignant transformation \n \n \n \nWhile there is now clear evidence to support the role of ISP as a precursor for SNSCC, the mechanism of progression remains uncharacterized. Progression of benign tumors is often restricted by oncogene-induced senescence, while escape from senescence and malignant transformation is often associated with loss of function of tumor suppressor proteins such as p53 or Rb. Inactivation of these tumor suppressors in cancer is frequently the result of somatic mutation; however, abrogation of p53 and Rb function by HPV-associated E6 and E7 proteins is another potential mechanism [1] (Figure ​(Figure1).1). Future studies are needed both to correlate EGFR mutation and HPV infection status and to elucidate the mechanism of progression from ISP to SNSCC. \n \nSurgical resection and radiotherapy is the current treatment of choice for SNSCC with chemotherapy generally reserved for locally advanced or metastatic SNSCC [8]. However, with these treatment options, SNSCC is associated with a 40% 5-year mortality. The discovery of EGFR mutations in ISP and associated SNSCC may provide an opportunity for the first targeted therapy in the treatment of these tumors. EGFR inhibitor therapy is now the standard of care in the treatment of advanced lung cancers with EGFR mutations. In contrast to lung cancers with EGFR exon 19 deletions, those with exon 20 insertions are generally resistant to the currently available reversible EGFR inhibitors gefitinib and erlotinib. However, irreversible EGFR inhibitors have been shown to have a more robust in vitro effect on exon 20 mutated lung cancer and clinical trials exploring their therapeutic potential are ongoing. Since the vast majority of EGFR mutations observed in ISP and associated SNSCC were exon 20 insertions, we explored the in vitro efficacy of both reversible and irreversible EGFR inhibitors [6]. As expected, ISP-associated SNSCC cells were relatively resistant to reversible EGFR inhibitors, while irreversible inhibitors resulted in robust growth inhibition as well as abrogation of EGFR, MAPK and AKT signaling. 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引用次数: 8

Abstract

Sinonasal squamous cell carcinoma (SNSCC) and sinonasal papillomas constitute a diverse group of epithelial tumors arising in the sinonasal tract [1]. Sinonasal papillomas are benign tumors classified into three distinct histologic types: exophytic (fungiform), inverted, and oncocytic. While exophytic sinonasal papillomas (ESP) arise from the nasal septum and are only rarely associated with SNSCC, inverted sinonasal papillomas (ISP) and oncocytic sinonasal papillomas (OSP) typically arise from the lateral portion of the nasal cavity and are more frequently associated with synchronous or metachronous SNSCC – up to 25%, depending on the study [2]. The etiology of sinonasal tumors is a topic of current debate [1]. While ESP is associated with infection by low-risk human papillomavirus (HPV) in 55% - 65% [1, 3], most studies have demonstrated significantly lower HPV detections rates for ISP [3, 4]. Similarly, less than half of SNSCC are associated with HPV infection [3, 4] and the incidence in SNSCC associated with ISP may be even lower [5]. These data suggest that while HPV infection may play a role in the pathogenesis of a subset of these tumors, it is not the only factor involved in SNP and SNSCC oncogenesis. In a recent study, our group identified activating somatic EGFR mutations in 88% of ISP and 77% of SNSCC associated with ISP [6]. Importantly, while a variety of different EGFR mutations were found in these tumors, concordant EGFR genotypes were identified for all matched pairs of ISP and synchronous or metachronous SNSCC. Therefore, this study provided the first molecular evidence to support the role of ISP as a precursor lesion for SNSCC. In addition, EGFR mutation status was a significant prognostic factor for ISP, with EGFR wild-type tumors showing earlier progression to SNSCC. No EGFR mutations were identified in ESP, OSP, or SNSCC not associated with ISP, suggesting that the ISP/SNSCC disease spectrum is biologically distinct from these other sinonasal squamous tumors. The oncogenic role of EGFR mutations was supported in this study by functional experiments. In cell lines derived from ISP-associated SNSCC, EGFR mutations were shown to result in activation of EGFR as well as downstream constituents of the MAPK and PI3K/AKT/mTOR signaling pathways. Taken together, these functional studies and the high frequency of EGFR mutations suggest that dysregulated EGFR signaling plays a central role in the oncogenesis of ISP and associated SNSCC – a finding that is an apparent departure from prior paradigms involving HPV infection [1]. These findings, however, do not strictly preclude a role for HPV in these tumors. The HPV-associated E5 oncoprotein has been shown to inhibit EGFR degradation, alter endosomal trafficking of EGFR and activate proteins downstream of EGFR in a ligand-independent manner [7] (Figure ​(Figure1).1). Thus, it is plausible that altered EGFR signaling itself – either as a result of somatic activating EGFR mutations or HPV-associated E5 oncoprotein – is important in the development and evolution of ISP. Figure 1 Possible mechanisms of ISP oncogenesis and malignant transformation While there is now clear evidence to support the role of ISP as a precursor for SNSCC, the mechanism of progression remains uncharacterized. Progression of benign tumors is often restricted by oncogene-induced senescence, while escape from senescence and malignant transformation is often associated with loss of function of tumor suppressor proteins such as p53 or Rb. Inactivation of these tumor suppressors in cancer is frequently the result of somatic mutation; however, abrogation of p53 and Rb function by HPV-associated E6 and E7 proteins is another potential mechanism [1] (Figure ​(Figure1).1). Future studies are needed both to correlate EGFR mutation and HPV infection status and to elucidate the mechanism of progression from ISP to SNSCC. Surgical resection and radiotherapy is the current treatment of choice for SNSCC with chemotherapy generally reserved for locally advanced or metastatic SNSCC [8]. However, with these treatment options, SNSCC is associated with a 40% 5-year mortality. The discovery of EGFR mutations in ISP and associated SNSCC may provide an opportunity for the first targeted therapy in the treatment of these tumors. EGFR inhibitor therapy is now the standard of care in the treatment of advanced lung cancers with EGFR mutations. In contrast to lung cancers with EGFR exon 19 deletions, those with exon 20 insertions are generally resistant to the currently available reversible EGFR inhibitors gefitinib and erlotinib. However, irreversible EGFR inhibitors have been shown to have a more robust in vitro effect on exon 20 mutated lung cancer and clinical trials exploring their therapeutic potential are ongoing. Since the vast majority of EGFR mutations observed in ISP and associated SNSCC were exon 20 insertions, we explored the in vitro efficacy of both reversible and irreversible EGFR inhibitors [6]. As expected, ISP-associated SNSCC cells were relatively resistant to reversible EGFR inhibitors, while irreversible inhibitors resulted in robust growth inhibition as well as abrogation of EGFR, MAPK and AKT signaling. Further studies are now needed to determine the clinical utility of irreversible EGFR inhibitors in the treatment of ISP and associated SNSCC.
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鼻窦鳞状肿瘤中的EGFR突变:致癌和治疗意义
鼻窦鳞状细胞癌(SNSCC)和鼻窦乳头状瘤构成了一组起源于鼻窦的上皮性肿瘤。鼻乳头状瘤是良性肿瘤,分为三种不同的组织学类型:外生性(真菌状)、倒置型和嗜瘤细胞型。外生性鼻窦乳头状瘤(ESP)起源于鼻中隔,很少与SNSCC相关,而内翻性鼻窦乳头状瘤(ISP)和嗜瘤性鼻窦乳头状瘤(OSP)通常起源于鼻腔外侧,更常与同步或异时性SNSCC相关——根据研究范围的不同,这一比例高达25%。鼻窦肿瘤的病因是目前争论的一个话题。虽然ESP与低风险人乳头瘤病毒(HPV)感染的相关性为55% - 65%[1,3],但大多数研究表明,ISP的HPV检出率明显较低[3,4]。同样,不到一半的SNSCC与HPV感染相关[3,4],而与ISP相关的SNSCC的发病率可能更低。这些数据表明,虽然HPV感染可能在这些肿瘤的一个亚群的发病机制中发挥作用,但它并不是SNP和SNSCC肿瘤发生的唯一因素。在最近的一项研究中,我们的研究小组在88%的ISP和77%的SNSCC中发现了与ISP[6]相关的激活体细胞EGFR突变。重要的是,虽然在这些肿瘤中发现了各种不同的EGFR突变,但在所有匹配的ISP和同步或异时SNSCC中发现了一致的EGFR基因型。因此,本研究为支持ISP作为SNSCC前体病变的作用提供了第一个分子证据。此外,EGFR突变状态是ISP的一个重要预后因素,EGFR野生型肿瘤更早发展为SNSCC。在与ISP无关的ESP、OSP或SNSCC中未发现EGFR突变,这表明ISP/SNSCC疾病谱系在生物学上与这些其他鼻窦鳞状肿瘤不同。本研究通过功能实验证实了EGFR突变的致癌作用。在来自isp相关SNSCC的细胞系中,EGFR突变被证明可以激活EGFR以及MAPK和PI3K/AKT/mTOR信号通路的下游成分。综上所述,这些功能性研究和EGFR突变的高频率表明,EGFR信号失调在ISP和相关SNSCC的肿瘤发生中起着核心作用——这一发现明显偏离了先前涉及HPV感染的范式。然而,这些发现并不能完全排除HPV在这些肿瘤中的作用。hpv相关的E5癌蛋白已被证明可以抑制EGFR降解,改变EGFR的内体运输,并以不依赖配体的方式激活EGFR下游的蛋白质[7](图(图1))。因此,似乎改变的EGFR信号本身——无论是体细胞激活的EGFR突变还是hpv相关的E5癌蛋白——在ISP的发展和进化中很重要。虽然现在有明确的证据支持ISP作为SNSCC的前体的作用,但其进展机制仍不明确。良性肿瘤的进展往往受到癌基因诱导的衰老的限制,而逃避衰老和恶性转化往往与肿瘤抑制蛋白(如p53或Rb)的功能丧失有关。这些肿瘤抑制因子在癌症中的失活通常是体细胞突变的结果;然而,hpv相关的E6和E7蛋白破坏p53和Rb功能是[1]的另一个潜在机制(图(图1))。未来的研究需要将EGFR突变与HPV感染状态联系起来,并阐明从ISP到SNSCC的进展机制。手术切除和放疗是目前SNSCC的治疗选择,化疗通常用于局部晚期或转移性SNSCC。然而,在这些治疗方案中,SNSCC与40%的5年死亡率相关。在ISP和相关SNSCC中发现EGFR突变可能为这些肿瘤的首次靶向治疗提供了机会。目前,EGFR抑制剂治疗是EGFR突变晚期肺癌的标准治疗方法。与EGFR外显子19缺失的肺癌相比,外显子20插入的肺癌通常对目前可用的可逆EGFR抑制剂吉非替尼和厄洛替尼具有耐药性。然而,不可逆的EGFR抑制剂已被证明对外显子20突变的肺癌具有更强的体外作用,探索其治疗潜力的临床试验正在进行中。
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