Duke-National University of Singapore Medical School, Singapore.
National Heart Centre Singapore, Singapore.
Curr Protoc. 2021 Sep;1(9):e251. doi: 10.1002/cpz1.251.
Interleukin (IL) 11 is a member of the IL6 family of cytokines which require the ubiquitous gp130 receptor to activate canonical (JAK/STAT) and non-canonical (e.g., ERK) signaling pathways. The IL11 cytokine is upregulated in a number of fibro-inflammatory diseases and cancer, where it binds the cognate IL11 receptor alpha subunit (IL11RA) to form a hexameric IL11:IL11RA:gp130 signaling complex. The specific IL11RA receptor is highly expressed on cells of the stromal and parenchymal niche but expressed at low levels on immune cells, highly passaged cells, or transformed cell lines. Consequently, primary cells such as hepatic stellate cells, fibroblasts, and hepatocytes are ideal experimental systems to study IL11 signaling in vitro. In contrast to immortalized cell lines, primary cells better display relevant cellular physiology and pathobiology. This collection of protocols details experimental and culturing conditions for primary cells that preserve meaningful cellular states and physiological responses ex vivo in conventional 2D cell culture systems. Readouts of cellular activity are chosen carefully to capture the non-canonical, post-transcriptional activity of IL11 signaling. Our data suggest that cell type, cell culture conditions, passage number, concentrations of stimuli, timing, and other factors have major implications for studies of IL11 signaling. In vitro experiments with primary cell material need to be planned and executed with great caution. Otherwise, physiologically relevant mechanisms may become dysfunctional and reproducible experimental artefacts can obscure our view of true cytokine biology. © 2021 The Authors. Current Protocols published by Wiley Periodicals LLC. Basic Protocol 1: Expansion of primary human hepatic stellate cells (HSCs) and human renal proximal tubular epithelial cells (HRPTEpiCs) Basic Protocol 2: Expansion of primary human lung fibroblasts (HLFs) Alternate Protocol 1: Isolation and expansion of primary mouse lung fibroblasts Support Protocol 1: Freezing and thawing of primary cells Support Protocol 2: Operetta high-content imaging-based phenotyping Support Protocol 3: Colorimetric assay of solubilized collagen Support Protocol 4: Quantification of fibrosis marker secretion Support Protocol 5: Western blotting studies of IL11 signaling in HSCs, HLFs, and HRPTEpiCs Basic Protocol 3: IL11 stimulation of primary human hepatocytes Alternate Protocol 2: IL11 stimulation of primary mouse hepatocytes Support Protocol 6: Alanine transaminase (ALT) secretion by human and mouse hepatocytes.
白细胞介素 (IL) 11 是细胞因子 IL6 家族的成员,需要普遍存在的 gp130 受体来激活经典 (JAK/STAT) 和非经典 (例如,ERK) 信号通路。IL11 细胞因子在许多纤维炎症性疾病和癌症中上调,在这些疾病和癌症中,它与同源的 IL11 受体 alpha 亚基 (IL11RA) 结合形成六聚体 IL11:IL11RA:gp130 信号复合物。特定的 IL11RA 受体在基质和实质龛位的细胞上高度表达,但在免疫细胞、高传代细胞或转化细胞系上表达水平较低。因此,原代细胞,如肝星状细胞、成纤维细胞和肝细胞,是体外研究 IL11 信号的理想实验系统。与永生化细胞系相比,原代细胞更好地显示出相关的细胞生理学和病理生物学。本协议集详细介绍了原代细胞的实验和培养条件,这些条件在传统的 2D 细胞培养系统中保持了有意义的细胞状态和生理反应。细胞活性的读数被精心选择,以捕捉 IL11 信号的非经典、转录后活性。我们的数据表明,细胞类型、细胞培养条件、传代数、刺激物浓度、时间和其他因素对 IL11 信号研究有重大影响。使用原代细胞材料进行体外实验需要非常谨慎地计划和执行。否则,生理相关的机制可能会变得功能失调,可重复的实验假象可能会掩盖我们对真正细胞因子生物学的看法。© 2021 作者。Wiley Periodicals LLC 出版的当前方案。基本方案 1:人肝星状细胞 (HSCs) 和人肾近端肾小管上皮细胞 (HRPTEpiCs) 的原代扩增基本方案 2:人肺成纤维细胞 (HLFs) 的扩增备选方案 1:原代小鼠肺成纤维细胞的分离和扩增支持方案 1:原代细胞的冷冻和解冻支持方案 2:Operetta 高内涵成像表型分析支持方案 3:可溶性胶原的比色测定支持方案 4:纤维化标志物分泌的定量支持方案 5:HSCs、HLFs 和 HRPTEpiCs 中 IL11 信号的 Western 印迹研究基本方案 3:原代人肝细胞的 IL11 刺激备选方案 2:原代小鼠肝细胞的 IL11 刺激支持方案 6:人源和鼠源肝细胞中丙氨酸转氨酶 (ALT) 的分泌。
