Fgf17: A regulator of the mid/hind brain boundary in mammals.

IF 2.2 3区生物学 Q4 CELL BIOLOGY Differentiation Pub Date : 2024-11-01 Epub Date: 2024-09-16 DOI:10.1016/j.diff.2024.100813

Zane Oberholzer, Chiron Loubser, Natalya V Nikitina

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Abstract

The Fibroblast growth factor (FGFs) family consists of at least 22 members that exert their function by binding and activating fibroblast growth factor receptors (FGFRs). The Fgf8/FgfD subfamily member, Fgf17, is located on human chromosome 8p21.3 and mouse chromosome 14 D2. In humans, FGF17 can be alternatively spliced to produce two isoforms (FGF17a and b) whereas three isoforms are present in mice (Fgf17a, b, and c), however, only Fgf17a and Fgf17b produce functional proteins. Fgf17 is a secreted protein with a cleavable N-terminal signal peptide and contains two binding domains, namely a conserved core region and a heparin binding site. Fgf17 mRNA is expressed in a wide range of different tissues during development, including the rostral patterning centre, midbrain-hindbrain boundary, tailbud mesoderm, olfactory placode, mammary glands, and smooth muscle precursors of major arteries. Given its broad expression pattern during development, it is surprising that adult Fgf17^-/- mice displayed a rather mild phenotype; such that mutants only exhibited morphological changes in the frontal cortex and mid/hind brain boundary and changes in certain social behaviours. In humans, FGF17 mutations are implicated in several diseases, including Congenital Hypogonadotropic Hypogonadism and Kallmann Syndrome. FGF17 mutations contribute to CHH/KS in 1.1% of affected individuals, often presenting in conjunction with mutations in other FGF pathway genes like FGFR1 and FLRT3. FGF17 mutations were also identified in patients diagnosed with Dandy-Walker malformation and Pituitary Stalk Interruption Syndrome, however, it remains unclear how FGF17 is implicated in these diseases. Altered FGF17 expression has been observed in several cancers, including prostate cancer, hematopoietic cancers (acute myeloid leukemia and acute lymphoblastic leukemia), glioblastomas, perineural invasion in cervical cancer, and renal cell carcinomas. Furthermore, FGF17 has demonstrated neuroprotective effects, particularly during ischemic stroke, and has been shown to improve cognitive function in ageing mice.

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Fgf17：哺乳动物中脑/后脑边界的调节器。

成纤维细胞生长因子（FGFs）家族至少有 22 个成员，它们通过结合和激活成纤维细胞生长因子受体（FGFRs）来发挥功能。Fgf8/FgfD 亚家族成员 Fgf17 位于人类染色体 8p21.3 和小鼠染色体 14 D2 上。在人体内，Fgf17 可通过交替剪接产生两种同工酶（Fgf17a 和 b），而在小鼠体内则有三种同工酶（Fgf17a、b 和 c），但只有 Fgf17a 和 Fgf17b 能产生功能蛋白。Fgf17 是一种分泌蛋白，其 N 端信号肽可被裂解，并包含两个结合域，即保守的核心区域和肝素结合位点。在发育过程中，Fgf17 mRNA在多种不同组织中表达，包括喙突形态中心、中脑-后脑边界、尾芽中胚层、嗅胎盘、乳腺和大动脉平滑肌前体。鉴于其在发育过程中的广泛表达模式，令人惊讶的是，成年的 Fgf17-/- 小鼠表现出相当温和的表型；例如，突变体仅表现出额叶皮层和中脑/后脑边界的形态变化以及某些社会行为的变化。在人类中，FGF17突变与多种疾病有关，包括先天性性腺功能减退症和卡尔曼综合征。在1.1%的受影响个体中，FGF17突变是导致CHH/KS的原因，通常与FGFR1和FLRT3等其他FGF通路基因的突变同时出现。在确诊为丹迪-沃克畸形和垂体柄中断综合征的患者中也发现了 FGF17 基因突变，但目前仍不清楚 FGF17 与这些疾病的关系。在几种癌症中，包括前列腺癌、造血癌症（急性髓性白血病和急性淋巴细胞白血病）、胶质母细胞瘤、宫颈癌的会阴侵袭和肾细胞癌中，都观察到了 FGF17 表达的改变。此外，FGF17 还具有神经保护作用，尤其是在缺血性中风期间，并能改善老龄小鼠的认知功能。

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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来源期刊

Differentiation 生物-发育生物学

CiteScore

4.10

自引率

3.40%

发文量

审稿时长

51 days

期刊介绍： Differentiation is a multidisciplinary journal dealing with topics relating to cell differentiation, development, cellular structure and function, and cancer. Differentiation of eukaryotes at the molecular level and the use of transgenic and targeted mutagenesis approaches to problems of differentiation are of particular interest to the journal. The journal will publish full-length articles containing original work in any of these areas. We will also publish reviews and commentaries on topics of current interest. The principal subject areas the journal covers are: • embryonic patterning and organogenesis • human development and congenital malformation • mechanisms of cell lineage commitment • tissue homeostasis and oncogenic transformation • establishment of cellular polarity • stem cell differentiation • cell reprogramming mechanisms • stability of the differentiated state • cell and tissue interactions in vivo and in vitro • signal transduction pathways in development and differentiation • carcinogenesis and cancer • mechanisms involved in cell growth and division especially relating to cancer • differentiation in regeneration and ageing • therapeutic applications of differentiation processes.