TATA box binding protein and ribosomal protein 4 are suitable reference genes for normalization during quantitative polymerase chain reaction study in bovine mesenchymal stem cells.

IF 2.2 2区农林科学

Asian-Australasian Journal of Animal Sciences Pub Date : 2020-12-01 Epub Date: 2020-07-28 DOI:10.5713/ajas.20.0238

Si-Jung Jang, Ryoung-Hoon Jeon, Hwan-Deuk Kim, Jong-Chan Hwang, Hyeon-Jeong Lee, Seul-Gi Bae, Sung-Lim Lee, Gyu-Jin Rho, Seung-Joon Kim, Won-Jae Lee

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Abstract

Objective: Quantitative polymerase chain reaction (qPCR) has been extensively used in the field of mesenchymal stem cell (MSC) research to elucidate their characteristics and clinical potential by normalization of target genes against reference genes (RGs), which are believed to be stably expressed irrespective of various experimental conditions. However, the expression of RGs is also variable depending on the experimental conditions, which may lead to false or contradictory conclusions upon normalization. Due to the current lack of information for a clear list of stable RGs in bovine MSCs, we conducted this study to identify suitable RGs in bovine MSCs.

Methods: The cycle threshold values of ten traditionally used RGs (18S ribosomal RNA [18S], beta-2-microglobulin [B2M], H2A histone family, member Z [H2A], peptidylprolyl isomerase A [PPIA], ribosomal protein 4 [RPL4], succinate dehydrogenase complex, subunit A [SDHA], beta actin [ACTB], glyceraldehyde-3-phosphate dehydrogenase [GAPDH], TATA box binding protein [TBP], and hypoxanthine phosphoribosyltrasnfrase1 [HPRT1]) in bovine bone marrow-derived MSCs (bBMMSCs) were validated for their stabilities using three types of RG evaluation algorithms (geNorm, Normfinder, and Bestkeeper). The effect of validated RGs was then verified by normalization of lineage-specific genes (fatty acid binding protein 4 [FABP4] and osteonectin [ON]) expressions during differentiations of bBMMSCs or POU class 5 homeobox 1 (OCT4) expression between bBMMSCs and dermal skins.

Results: Based on the results obtained for the three most stable RGs from geNorm (TBP, RPL4, and H2A), Normfinder (TBP, RPL4, and SDHA), and Bestkeeper (TBP, RPL4, and SDHA), it was comprehensively determined that TBP and RPL4 were the most stable RGs in bBMMSCs. However, traditional RGs were suggested to be the least stable (18S) or moderately stable (GAPDH and ACTB) in bBMMSCs. Normalization of FABP4 or ON against TBP, RPL4, and 18S presented significant differences during differentiation of bBMMSCs. However, although significantly low expression of OCT4 was detected in dermal skins compared to that in bBMMSCs when TBP and RPL4 were used in normalization, normalization against 18S exhibited no significance.

Conclusion: This study proposes that TBP and RPL4 were suitable as stable RGs for qPCR study in bovine MSCs.

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在对牛间质干细胞进行定量聚合酶链反应研究时，TATA 盒结合蛋白和核糖体蛋白 4 是合适的归一化参考基因。

目的：定量聚合酶链反应（qPCR）已被广泛应用于间充质干细胞（MSC）研究领域，通过将目标基因与参考基因（RGs）进行归一化来阐明间充质干细胞的特性和临床潜力。然而，RGs 的表达也因实验条件而异，这可能导致归一化后得出错误或矛盾的结论。由于目前缺乏关于牛间充质干细胞中稳定 RGs 明确列表的信息，我们开展了这项研究，以确定牛间充质干细胞中合适的 RGs：10种传统使用的RGs（18S核糖体RNA[18S]、β-2-微球蛋白[B2M]、H2A组蛋白家族Z成员[H2A]、肽基脯氨酰异构酶A[PPIA]、核糖体蛋白4[RPL4]、琥珀酸脱氢酶复合物A亚单位[SDHA]、β肌动蛋白[ACTB]）的周期阈值、使用三种 RG 评估算法（geNorm、Normfinder 和 Bestkeeper）验证了牛骨髓间充质干细胞（bBMMSCs）中的 RG（甘油醛-3-磷酸脱氢酶 [GAPDH]、TATA 盒结合蛋白 [TBP] 和次黄嘌呤磷酸核糖基转录酶 1 [HPRT1]）的稳定性。然后通过归一化 bBMMSCs 分化过程中的系特异性基因（脂肪酸结合蛋白 4 [FABP4] 和骨连接蛋白 [ON]）表达或 bBMMSCs 和真皮之间的 POU class 5 homeobox 1 (OCT4) 表达来验证验证过的 RGs 的效果：根据 geNorm（TBP、RPL4 和 H2A）、Normfinder（TBP、RPL4 和 SDHA）和 Bestkeeper（TBP、RPL4 和 SDHA）对三个最稳定的 RGs 得出的结果，综合判定 TBP 和 RPL4 是 bBMMSCs 中最稳定的 RGs。然而，传统的 RGs 被认为在 bBMMSCs 中最不稳定（18S）或中等程度稳定（GAPDH 和 ACTB）。在 bBMMSCs 分化过程中，FABP4 或 ON 与 TBP、RPL4 和 18S 的归一化呈现出显著差异。然而，尽管在使用 TBP 和 RPL4 进行归一化时，与 bBMMSCs 相比，在真皮中检测到的 OCT4 表达量明显较低，但与 18S 进行归一化却没有显示出明显的差异：本研究认为 TBP 和 RPL4 适合作为牛间充质干细胞 qPCR 研究的稳定 RG。

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来源期刊

Asian-Australasian Journal of Animal Sciences AGRICULTURE, DAIRY & ANIMAL SCIENCE-

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审稿时长

3 months

期刊介绍： Asian-Australasian Journal of Animal Sciences (AJAS) aims to publish original and cutting-edge research results and reviews on animal-related aspects of the life sciences. Emphasis will be placed on studies involving farm animals such as cattle, buffaloes, sheep, goats, pigs, horses, and poultry. Studies for the improvement of human health using animal models may also be publishable. AJAS will encompass all areas of animal production and fundamental aspects of animal sciences: breeding and genetics, reproduction and physiology, nutrition, meat and milk science, biotechnology, behavior, welfare, health, and livestock farming systems.