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NSG小鼠中人嗜铬细胞瘤和副神经节瘤异种移植瘤的病理学

Pathology of Human Pheochromocytoma and Paraganglioma Xenografts in NSG Mice.

作者信息

Powers James F, Pacak Karel, Tischler Arthur S

机构信息

Department of Pathology and Laboratory Medicine, Tufts Medical Center, 800 Washington Street, Boston, MA, 02111, USA.

Section on Medical Neuroendocrinology, Eunice Kennedy Shriver National Institute of Child Health and Human Development, National Institutes of Health, Bethesda, MD, USA.

出版信息

Endocr Pathol. 2017 Mar;28(1):2-6. doi: 10.1007/s12022-016-9452-5.

DOI:10.1007/s12022-016-9452-5
PMID:27709415
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5313333/
Abstract

A major impediment to the development of effective treatments for metastatic or unresectable pheochromocytomas and paragangliomas has been the absence of valid models for pre-clinical testing. Attempts to establish cell lines or xenografts from human pheochromocytomas and paragangliomas have previously been unsuccessful. NOD-scid gamma (NSG) mice are a recently developed strain lacking functional B-cells, T-cells, and NK cells. We report here that xenografts of primary human paragangliomas will take in NSG mice while maintaining their architectural and immunophenotypic characteristics as expressed in the patients. In contrast to grafts of cell lines and of most common types of primary tumors, the growth rate of grafted paragangliomas is very slow, accurately representing the growth rate of most pheochromocytomas and paragangliomas even in metastases in humans. Although the model is therefore technically challenging, primary patient-derived xenografts of paragangliomas in NSG mice provide a potentially valuable new tool that could prove especially valuable for testing treatments aimed at eradicating the small tumor deposits that are often numerous in patients with metastatic paraganglioma.

摘要

有效治疗转移性或无法切除的嗜铬细胞瘤和副神经节瘤的主要障碍一直是缺乏用于临床前测试的有效模型。此前,尝试从人嗜铬细胞瘤和副神经节瘤建立细胞系或异种移植均未成功。NOD-scid gamma(NSG)小鼠是最近培育出的一种缺乏功能性B细胞、T细胞和NK细胞的品系。我们在此报告,原发性人副神经节瘤的异种移植能在NSG小鼠体内生长,同时保持其在患者体内所表现出的结构和免疫表型特征。与细胞系移植以及大多数常见类型原发性肿瘤的移植不同,移植的副神经节瘤生长速度非常缓慢,即使在人类转移灶中也能准确反映大多数嗜铬细胞瘤和副神经节瘤的生长速度。因此,尽管该模型在技术上具有挑战性,但NSG小鼠中源自原发性患者的副神经节瘤异种移植提供了一种潜在有价值的新工具,对于测试旨在消除转移性副神经节瘤患者体内通常大量存在的小肿瘤沉积物的治疗方法可能特别有价值。

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