SorLA Targeting - A Method to Overcome Therapy Resistance in Breast Cancer

Archives of cancer biology and therapy Pub Date : 2021-12-29 DOI:10.33696/cancerbiology.2.026

Hussein Al-Akhrass, Nicolas Pasquier, J. Ivaska

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Abstract

Tyrosine kinase-type cell surface receptor HER2targeted therapies have dramatically improved breast cancer patients’ outcome compared to conventional chemotherapies. In the clinic, HER2 monoclonal antibody trastuzumab with chemotherapy represent the gold standard treatment of HER2-positive breast cancer [1]. In the advanced metastatic setting, other Federation of Drug Administration (FDA)-approved HER2-based therapeutic options are used such as HER2 small molecule tyrosine kinase inhibitor neratinib [2]. Metastatic tumors are often therapy-resistant due to drug resistance mechanisms leading to sustained cancer progression most notably with regard to brain metastatic breast cancer, the most challenging medical-oncology situation [3]. 50% of brain metastatic HER2-positive breast cancer samples exhibit enriched HER3 expression compared to their matched primary tumors [4]. Elevated HER3 levels is one of the most reported therapy-resistance mechanisms in breast cancer [5]. HER3 lacks a fully active intracellular kinase domain, however, upon ligand binding the receptor heterodimerizes with its favorite partner HER2 that adopts constitutively the open conformation required for receptor dimerization [6]. The HER2-HER3 heterodimer is a unique and powerful signaling unit facilitating signaling such that even a residual HER2 activation is sufficient to trans-phosphorylate HER3 that bears at least six direct docking sites for the p85 adaptor subunit of phosphoinositide 3-kinase [5,6]. This enables HER3 to compensate for HER2 inhibition and renders HER2-HER3 the most signaling-effective component among all the different heterodimers within the HER family [6,7]. HER3 inhibition is an unmet clinical need since the extensive preclinical and clinical efforts targeting this receptor have thus far failed to lead to FDA approval in any cancer type. This is partly owing to the fact that targeting HER3 using classic tyrosine kinase inhibitors is not an option [5].

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SorLA靶向-一种克服乳腺癌治疗耐药的方法

与传统化疗相比，酪氨酸激酶型细胞表面受体her2靶向治疗显著改善了乳腺癌患者的预后。在临床上，HER2单克隆抗体曲妥珠单抗联合化疗是HER2阳性乳腺癌的金标准治疗方法[1]。在晚期转移情况下，其他FDA批准的基于HER2的治疗选择，如HER2小分子酪氨酸激酶抑制剂neratinib[2]。由于耐药机制导致癌症持续进展，转移性肿瘤通常具有治疗耐药性，最明显的是脑转移性乳腺癌，这是最具挑战性的医学肿瘤学情况[3]。与匹配的原发肿瘤相比，50%的脑转移性her2阳性乳腺癌样本显示HER3表达丰富[4]。HER3水平升高是报道最多的乳腺癌耐药机制之一[5]。然而，HER3缺乏一个完全活跃的细胞内激酶结构域，当配体结合时，受体与其最喜欢的伙伴HER2异二聚化，HER2采用受体二聚化所需的基本开放构象[6]。HER2-HER3异源二聚体是一种独特而强大的信号传导单位，可以促进信号传导，即使残留的HER2激活也足以使HER3反式磷酸化，而HER3至少有6个直接对接位点与磷酸肌苷3激酶的p85接头亚基对接[5,6]。这使得HER3能够补偿HER2的抑制，并使HER2-HER3成为HER家族中所有不同异源二聚体中最有效的信号传导成分[6,7]。HER3抑制是一个未满足的临床需求，因为针对该受体的广泛临床前和临床努力迄今未能导致FDA批准用于任何癌症类型。这部分是由于使用经典的酪氨酸激酶抑制剂靶向HER3不是一种选择[5]。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Archives of cancer biology and therapy

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