B7-H3 通过 Stat3/c-Met 通路调节神经母细胞瘤中的葡萄糖代谢。

B7-H3 Regulates Glucose Metabolism in Neuroblastom via Stat3/c-Met Pathway.

机构信息

Department of General Surgery, Children's Hospital of Soochow University, Suzhou, 215127, China.

Department of General Surgery, Wuxi Children's Hospital, Wuxi, 214023, China.

出版信息

Appl Biochem Biotechnol. 2024 Mar;196(3):1386-1398. doi: 10.1007/s12010-023-04606-7. Epub 2023 Jul 5.

DOI:10.1007/s12010-023-04606-7

PMID:37405686

Abstract

Neuroblastoma (NB), which mainly originates from the adrenal gland, is one of the most common tumors in infants and young children. Abnormal B7 homolog 3 (B7-H3) expression has been reported in human NB, although its mechanism of action and precise role in NB are still unclear. The present study was performed to explore the role of B7-H3 in glucose metabolism in NB cells. Our findings showed that B7-H3 expression was increased in NB samples, and markedly promoted the migration and invasion of NB cells. B7-H3 silencing decreased the migration and invasion of NB cells. Moreover, B7-H3 overexpression also increased tumor proliferation in the human NB cell xenograft animal model. B7-H3 silencing reduced NB cell viability and proliferation, while B7-H3 overexpression had the opposite effects. Furthermore, B7-H3 increased PFKFB3 expression, resulting in increased glucose uptake and lactate production. This study suggested that B7-H3 regulated the Stat3/c-Met pathway. Taken together, our data showed that B7-H3 regulates NB progression by increasing glucose metabolism in NB.

摘要

神经母细胞瘤（NB）主要起源于肾上腺，是婴儿和幼儿中最常见的肿瘤之一。尽管 B7 同源物 3（B7-H3）在人类 NB 中的作用机制及其确切作用尚不清楚，但已有研究报道其表达异常。本研究旨在探讨 B7-H3 在 NB 细胞葡萄糖代谢中的作用。研究结果表明，B7-H3 在 NB 样本中的表达增加，明显促进了 NB 细胞的迁移和侵袭。B7-H3 沉默降低了 NB 细胞的迁移和侵袭。此外，B7-H3 的过表达也增加了人 NB 细胞异种移植动物模型中的肿瘤增殖。B7-H3 沉默降低了 NB 细胞的活力和增殖，而 B7-H3 过表达则有相反的效果。此外，B7-H3 增加了 PFKFB3 的表达，导致葡萄糖摄取和乳酸生成增加。本研究表明 B7-H3 通过调节 Stat3/c-Met 通路来发挥作用。综上所述，我们的数据表明，B7-H3 通过增加 NB 中的葡萄糖代谢来调节 NB 的进展。

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B7-H3 通过 Stat3/c-Met 通路调节神经母细胞瘤中的葡萄糖代谢。

B7-H3 Regulates Glucose Metabolism in Neuroblastom via Stat3/c-Met Pathway.

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