Change of histone H3 lysine 14 acetylation stoichiometry in human monocyte derived macrophages as determined by MS-based absolute targeted quantitative proteomic approach: HIV infection and methamphetamine exposure.

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS ACS Applied Bio Materials Pub Date : 2023-10-25 DOI:10.1186/s12014-023-09438-5
Katarzyna Macur, Andrew Schissel, Fang Yu, Shulei Lei, Brenda Morsey, Howard S Fox, Pawel Ciborowski
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Abstract

Background: Histones posttranslational modification represent an epigenetic mechanism that regulate gene expression and other cellular processes. Quantitative mass spectrometry used for the absolute quantification of such modifications provides further insight into cellular responses to extracellular insults such as infections or toxins. Methamphetamine (Meth), a drug of abuse, is affecting the overall function of the immune system. In this report, we developed, validated and applied a targeted, MS-based quantification assay to measure changes in histone H3 lysine 14 acetylation (H3K14Ac) during exposure of human primary macrophages to HIV-1 infection and/or Meth.

Methods: The quantification assay was developed and validated to determine H3K14Ac stoichiometry in histones that were isolated from the nuclei of control (CIC) and exposed to Meth before (CIM) or/and after (MIM) HIV-infection human monocyte-derived macrophages (hMDM) of six donors. It was based on LC-MS/MS measurement using multiple reaction monitoring (MRM) acquisition of the unmodified and acetylated form of lysine K14 of histone H3 9KSTGGKAPR17 peptides and the corresponding stable isotope labeled (SIL) heavy peptide standards of the same sequences. The histone samples were propionylated (Poy) pre- and post- trypsin digestion so that the sequences of the monitored peptides were: K[Poy]STGGK[1Ac]APR, K[Poy]STGGK[1Ac]APR-heavy, K[Poy]STGGK[Poy]APR and K[Poy]STGGK[Poy]APR-heavy. The absolute amounts of the acetylated and unmodified peptides were determined by comparing to the abundances of their SIL standards, that were added to the samples in the known concentrations, and, then used for calculation of H3K14Ac stoichiometry in CIC, CIM and MIM hMDM.

Results: The assay was characterized by LLOD of 0.106 fmol/µL and 0.204 fmol/µL for unmodified and acetylated H3 9KSTGGKAPR17 peptides, respectively. The LLOQ was 0.5 fmol/µL and the linear range of the assay was from 0.5 to 2500 fmol/µL. The absolute abundances of the quantified peptides varied between the donors and conditions, and so did the H3K14Ac stoichiometry. This was rather attributed to the samples nature itself, as the variability of their triplicate measurements was low.

Conclusions: The developed LC-MS/MS assay enabled absolute quantification of H3K14Ac in exposed to Meth HIV-infected hMDM. It can be further applied determination of this PTM stoichiometry in other studies on human primary macrophages.

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基于MS的绝对靶向定量蛋白质组学方法测定的人类单核细胞衍生巨噬细胞中组蛋白H3赖氨酸14乙酰化化学计量的变化:HIV感染和甲基苯丙胺暴露。
背景:组蛋白翻译后修饰是一种表观遗传学机制,可调节基因表达和其他细胞过程。用于这种修饰的绝对定量的定量质谱法提供了对细胞外损伤(如感染或毒素)的细胞反应的进一步见解。甲基苯丙胺(Meth)是一种滥用药物,正在影响免疫系统的整体功能。在本报告中,我们开发、验证并应用了,基于MS的定量分析,用于测量人类原代巨噬细胞暴露于HIV-1感染和/或Meth期间组蛋白H3赖氨酸14乙酰化(H3K14Ac)的变化六个供体的人单核细胞衍生的巨噬细胞(hMDM)。它基于LC-MS/MS测量,使用多反应监测(MRM)获取组蛋白H3 9KSTGGKAPR17肽的赖氨酸K14的未修饰和乙酰化形式以及相同序列的相应稳定同位素标记(SIL)重肽标准品。组蛋白样品在胰蛋白酶消化前和消化后进行丙酰化(Poy),因此监测的肽的序列为:K[Poy]STGGK[1Ac]APR、K[Poy]STGGK[1 Ac]APR-重、K[Poy]STGGK[Poy]APR和K[Poy〕STGGK[Poy]APR-重。乙酰化肽和未修饰肽的绝对量是通过与它们的SIL标准物的丰度进行比较来确定的,这些标准物以已知浓度添加到样品中,然后用于计算CIC中的H3K14Ac化学计量,CIM和MIM-hMDM。结果:未修饰和乙酰化的H3 9KSTGGKAPR17肽的LLOD分别为0.106 fmol/µL和0.204 fmol/μL。LLOQ为0.5 fmol/µL,测定的线性范围为0.5至2500 fmol/μL。定量肽的绝对丰度在供体和条件之间变化,H3K14Ac化学计量也是如此。这相当于样品本身的性质,因为它们的三次测量的可变性很低。结论:所开发的LC-MS/MS分析能够对暴露于Meth-HIV感染的hMDM的H3K14Ac进行绝对定量。它可以在其他关于人类原代巨噬细胞的研究中进一步应用这种PTM化学计量的测定。
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
ACS Applied Bio Materials
ACS Applied Bio Materials Chemistry-Chemistry (all)
CiteScore
9.40
自引率
2.10%
发文量
464
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