Kurdi Hibba, Lavalle Lucia, Moon James C C, Hughes Derralynn
Institute of Cardiovascular Science, University College London, London, United Kingdom.
Cardiovascular Imaging Department, Barts Heart Centre, London, United Kingdom.
Front Cardiovasc Med. 2024 Jun 12;11:1420067. doi: 10.3389/fcvm.2024.1420067. eCollection 2024.
Fabry disease, a multisystem X-linked disorder caused by mutations in the alpha-galactosidase gene. This leads to the accumulation of globotriaosylceramide (Gb3) and globotriaosylsphingosine (Lyso-Gb3), culminating in various clinical signs and symptoms that significantly impact quality of life. Although treatments such as enzyme replacement, oral chaperone, and emerging therapies like gene therapy exist; delayed diagnosis often curtails their effectiveness. Our review highlights the importance of delineating the stages of inflammation in Fabry disease to enhance the timing and efficacy of diagnosis and interventions, particularly before the progression to fibrosis, where treatment options are less effective. Inflammation is emerging as an important aspect of the pathogenesis of Fabry disease. This is thought to be predominantly mediated by the innate immune response, with growing evidence pointing towards the potential involvement of adaptive immune mechanisms that remain poorly understood. Highlighted by the fact that Fabry disease shares immune profiles with systemic autoinflammatory diseases, blurring the distinctions between these disorders and highlighting the need for a nuanced understanding of immune dynamics. This insight is crucial for developing targeted therapies and improving the administration of current treatments like enzyme replacement. Moreover, our review discusses the complex interplay between these inflammatory processes and current treatments, such as the challenges posed by anti-drug antibodies. These antibodies can attenuate the effectiveness of therapies, necessitating more refined approaches to mitigate their impact. By advancing our understanding of the molecular changes, inflammatory mediators and causative factors that drive inflammation in Fabry disease, we aim to clarify their role in the disease's progression. This improved understanding will help us see how these processes fit into the current landscape of Fabry disease. Additionally, it will guide the development of more effective diagnostic and therapeutic approaches, ultimately improving patient care.
法布里病是一种多系统X连锁疾病,由α-半乳糖苷酶基因突变引起。这会导致球三糖神经酰胺(Gb3)和球三糖鞘氨醇(Lyso-Gb3)的积累,最终引发各种临床体征和症状,严重影响生活质量。尽管存在酶替代、口服伴侣药物等治疗方法以及基因治疗等新兴疗法,但诊断延迟往往会降低其疗效。我们的综述强调了明确法布里病炎症阶段的重要性,以提高诊断和干预的及时性和有效性,特别是在进展为纤维化之前,因为此时治疗选择的效果较差。炎症正成为法布里病发病机制的一个重要方面。这被认为主要由先天免疫反应介导,越来越多的证据表明适应性免疫机制可能也参与其中,但对此仍了解不足。法布里病与系统性自身炎症性疾病具有相似的免疫特征,这一事实凸显了这些疾病之间的区别并不清晰,也强调了需要对免疫动态有细致的理解。这种见解对于开发靶向治疗和改善当前如酶替代治疗的给药方式至关重要。此外,我们的综述讨论了这些炎症过程与当前治疗之间的复杂相互作用,例如抗药物抗体带来的挑战。这些抗体可能会削弱治疗效果,因此需要更精细的方法来减轻其影响。通过深入了解驱动法布里病炎症的分子变化、炎症介质和致病因素,我们旨在阐明它们在疾病进展中的作用。这种更好的理解将帮助我们看清这些过程如何融入法布里病的现有情况。此外,它将指导开发更有效的诊断和治疗方法,最终改善患者护理。
