Vázquez Ramiro, Riveiro Maria E, Berenguer-Daizé Caroline, O'Kane Anthony, Gormley Julie, Touzelet Olivier, Rezai Keyvan, Bekradda Mohamed, Ouafik L'Houcine
Preclinical Department, Early Drug Development Group (E2DG), Boulogne-Billancourt, France.
Center for Genomic Science of IIT@SEMM, Fondazione Istituto Italiano di Tecnologia (IIT), Milan, Italy.
Front Oncol. 2021 Jan 6;10:589218. doi: 10.3389/fonc.2020.589218. eCollection 2020.
The development, maintenance and metastasis of solid tumors are highly dependent on the formation of blood and lymphatic vessels from pre-existing ones through a series of processes that are respectively known as angiogenesis and lymphangiogenesis. Both are mediated by specific growth-stimulating molecules, such as the vascular endothelial growth factor (VEGF) and adrenomedullin (AM), secreted by diverse cell types which involve not only the cancerogenic ones, but also those constituting the tumor stroma (i.e., macrophages, pericytes, fibroblasts, and endothelial cells). In this sense, anti-angiogenic therapy represents a clinically-validated strategy in oncology. Current therapeutic approaches are mainly based on VEGF-targeting agents, which, unfortunately, are usually limited by toxicity and/or tumor-acquired resistance. AM is a ubiquitous peptide hormone mainly secreted in the endothelium with an important involvement in blood vessel development and cardiovascular homeostasis. In this review, we will introduce the state-of-the-art in terms of AM physiology, while putting a special focus on its pro-tumorigenic role, and discuss its potential as a therapeutic target in oncology. A large amount of research has evidenced AM overexpression in a vast majority of solid tumors and a correlation between AM levels and disease stage, progression and/or vascular density has been observed. The analysis presented here indicates that the involvement of AM in the pathogenesis of cancer arises from: 1) direct promotion of cell proliferation and survival; 2) increased vascularization and the subsequent supply of nutrients and oxygen to the tumor; 3) and/or alteration of the cell phenotype into a more aggressive one. Furthermore, we have performed a deep scrutiny of the pathophysiological prominence of each of the AM receptors (AM and AM) in different cancers, highlighting their differential locations and functions, as well as regulatory mechanisms. From the therapeutic point of view, we summarize here an exhaustive series of preclinical studies showing a reduction of tumor angiogenesis, metastasis and growth following treatment with AM-neutralizing antibodies, AM receptor antagonists, or AM receptor interference. Anti-AM therapy is a promising strategy to be explored in oncology, not only as an anti-angiogenic alternative in the context of acquired resistance to VEGF treatment, but also as a potential anti-metastatic approach.
实体瘤的发生、维持和转移高度依赖于从已有的血管通过一系列分别称为血管生成和淋巴管生成的过程形成血液和淋巴管。两者均由特定的生长刺激分子介导,如血管内皮生长因子(VEGF)和肾上腺髓质素(AM),这些分子由多种细胞类型分泌,不仅包括致癌细胞,还包括构成肿瘤基质的细胞(即巨噬细胞、周细胞、成纤维细胞和内皮细胞)。从这个意义上讲,抗血管生成疗法是肿瘤学中一种经过临床验证的策略。目前的治疗方法主要基于靶向VEGF的药物,但不幸的是,这些药物通常受到毒性和/或肿瘤获得性耐药的限制。AM是一种普遍存在的肽类激素,主要在内皮中分泌,在血管发育和心血管稳态中起重要作用。在这篇综述中,我们将介绍AM生理学的最新进展,特别关注其促肿瘤发生的作用,并讨论其作为肿瘤治疗靶点的潜力。大量研究已证明AM在绝大多数实体瘤中过度表达,并且观察到AM水平与疾病分期、进展和/或血管密度之间存在相关性。这里呈现的分析表明,AM参与癌症发病机制的原因如下:1)直接促进细胞增殖和存活;2)增加血管生成以及随后向肿瘤提供营养和氧气;3)和/或使细胞表型转变为更具侵袭性的表型。此外,我们对不同癌症中每种AM受体(AM1和AM2)的病理生理重要性进行了深入研究,强调了它们不同的定位和功能以及调节机制。从治疗角度来看,我们在此总结了一系列详尽的临床前研究,这些研究表明用AM中和抗体、AM受体拮抗剂或AM受体干扰进行治疗后,肿瘤血管生成、转移和生长会减少。抗AM疗法是肿瘤学中一种有前景的策略,不仅可作为在对VEGF治疗产生获得性耐药情况下的抗血管生成替代方法,还可作为一种潜在的抗转移方法。
