黑素细胞肿瘤中视蛋白基因单核苷酸变异的鉴定和功能分析

IF 3.9 3区 医学 Q2 CELL BIOLOGY Pigment Cell & Melanoma Research Pub Date : 2022-05-08 DOI:10.1111/pcmr.13043
Wei Zhang, Wen Zeng, Jianglong Feng, Pinhao Li, Yu Wang, Hongguang Lu
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引用次数: 1

摘要

表皮黑色素细胞通过视蛋白偶联信号通路感知太阳光,参与一系列生物学功能,包括调节色素沉着、增殖、凋亡和肿瘤发生。然而,目前尚不清楚这些视蛋白中是否存在影响视蛋白结构和功能的遗传变异,并进一步影响黑素细胞的生物学行为。在这里,我们检测了MM(恶性黑色素瘤;n = 76)和MN(黑素细胞痣;N = 157),采用下一代测序。这些致病性单核苷酸变异(snv)对视蛋白结构和功能的影响通过分子动力学(MD)模拟、动态相互关联(DCC)和定点诱变进一步研究。总共鉴定出107种SNV变异。在这些变异中,检测到14个视蛋白基因的非同义snv (nssnv),包括3个RGR基因突变、3个OPN1SW基因突变、2个OPN2基因突变和6个OPN4基因突变。然后使用八种预测工具评估这些错义突变对视蛋白功能的影响,以估计氨基酸取代的潜在影响。通过MD模拟和DCC分析,研究了各nsSNV的影响。此外,我们采用体外荧光钙成像技术,利用定点诱变方法评估nsSNV蛋白的功能特性。综上所述,在14个nssnv中,p.A103V (RGR)、p.T167I (RGR)、p.G141S (OPN1SW)、p.R144C (OPN1SW)和p.S231F (OPN4)对蛋白质结构和功能的影响更大。视蛋白基因的改变在黑色素细胞肿瘤中显示出低频率的错义突变,尽管罕见,但这些视蛋白基因的一些突变破坏了视蛋白的典型功能。我们的发现为视蛋白变异在功能丧失中的作用提供了新的见解。
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Identification and functional assays of single-nucleotide variants of opsins genes in melanocytic tumors

Epidermal melanocytes sense solar light via the opsin-coupled signaling pathway which is involved in a range of biological functions, including regulating pigmentation, proliferation, apoptosis, and tumorigenesis. However, it remains unclear whether there are genetic variants within these opsins that affect opsin protein structure and function, and further melanocyte biological behaviors. Here, we examined single-nucleotide variants (SNVs) of five opsin (RGR, OPN1SW, OPN2, OPN4, and OPN5) genes in MM (malignant melanoma; n = 76) and MN (melanocytic nevi; n = 157), using next-generation sequencing. The effects of these pathogenic single-nucleotide variants (SNVs) on opsin structure and function were further investigated using molecular dynamics (MD) simulations, dynamic cross-correlation (DCC), and site-directed mutagenesis. In total, 107 SNV variants were identified. Of these variants, 14 nonsynonymous SNVs (nsSNVs) of opsin genes were detected, including three mutations in the RGR gene, three mutations in the OPN1SW gene, two mutations in the OPN2 gene, and six mutations in the OPN4 gene. The effect of these missense mutations on opsin function was then assessed using eight prediction tools to estimate the potential impact of an amino acid substitution. The impact of each nsSNV was investigated using MD simulations and DCC analysis. Furthermore, we performed in vitro fluorescence calcium imaging to assess the functional properties of nsSNV proteins using a site-directed mutagenesis method. Taken together, these results revealed that p.A103V (RGR), p.T167I (RGR), p.G141S (OPN1SW), p.R144C (OPN1SW), and p.S231F (OPN4) had more deleterious effects on protein structure and function among the 14 nsSNVs. Opsin gene alterations showed the low frequency of missense mutations in melanocytic tumors, and although rare, some mutations in these opsin genes disrupt the canonical function of opsin. Our findings provide new insight into the role of opsin variants in the loss of function.

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来源期刊
Pigment Cell & Melanoma Research
Pigment Cell & Melanoma Research 医学-皮肤病学
CiteScore
8.90
自引率
2.30%
发文量
54
审稿时长
6-12 weeks
期刊介绍: Pigment Cell & Melanoma Researchpublishes manuscripts on all aspects of pigment cells including development, cell and molecular biology, genetics, diseases of pigment cells including melanoma. Papers that provide insights into the causes and progression of melanoma including the process of metastasis and invasion, proliferation, senescence, apoptosis or gene regulation are especially welcome, as are papers that use the melanocyte system to answer questions of general biological relevance. Papers that are purely descriptive or make only minor advances to our knowledge of pigment cells or melanoma in particular are not suitable for this journal. Keywords Pigment Cell & Melanoma Research, cell biology, melatonin, biochemistry, chemistry, comparative biology, dermatology, developmental biology, genetics, hormones, intracellular signalling, melanoma, molecular biology, ocular and extracutaneous melanin, pharmacology, photobiology, physics, pigmentary disorders
期刊最新文献
The Lipid Droplet Protein DHRS3 Is a Regulator of Melanoma Cell State. UVA Irradiation Promotes Melanoma Cell Proliferation Mediated by OPN3 Independently of ROS Production. Issue Information Bay 11-7082, an NF-κB Inhibitor, Prevents Post-Inflammatory Hyperpigmentation Through Inhibition of Inflammation and Melanogenesis. Low-Dose Baricitinib Plus Narrow-Band Ultraviolet B for the Treatment of Progressive Non-Segmental Vitiligo: A Prospective, Controlled, Open-Label Study.
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