Kurt T K Giuliani, Purba Nag, Benjamin C Adams, Xiangju Wang, Seokchan Hong, Anca Grivei, Rebecca L Johnston, Nicola Waddell, Kenneth K C Ho, Yilin Tian, Muhammad Ali Khan, Chang Seong Kim, Monica S Y Ng, Glenda Gobe, Jacobus P J Ungerer, Josephine M Forbes, Helen G Healy, Andrew J Kassianos
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Hypoxic PTECs incubated with IL-1β displayed a discrete transcriptomic profile distinct from PTECs cultured under hypoxia alone, IL-1β alone or under normoxia. Hypoxia+IL-1β-treated PTECs had 692 'unique' differentially expressed genes (DEGs) compared to normoxic PTECs, with 'cell cycle' the most significantly enriched KEGG pathway based on 'unique' down-regulated DEGs (including CCNA2, CCNB1 and CCNB2). Hypoxia+IL-1β-treated PTECs displayed signatures of cellular senescence, with reduced proliferation, G2/M cell cycle arrest, increased p21 expression, elevated senescence-associated β-galactosidase (SA-β-gal) activity and increased production of pro-inflammatory/fibrotic senescence-associated secretory phenotype (SASP) factors compared to normoxic conditions. Treatment of Hypoxia+IL-1β-treated PTECs with either a type I IL-1 receptor (IL-1RI) neutralizing antibody or a senolytic drug combination, quercetin+dasatinib, attenuated senescent cell burden. 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引用次数: 0
摘要
缺氧和白细胞介素(IL)-1β是小管间质纤维化的独立介质,小管间质纤维化是慢性肾脏疾病(CKD)的组织学标志。在这里,我们研究了缺氧和IL-1β如何协同作用,以增强人类CKD中不适应的近端小管上皮细胞(PTEC)的修复。在无IL-1β或存在IL-1β的情况下,在常氧(21% O2)或缺氧(1% O2)条件下培养体外患者源性ptec,并检查其适应性不良修复特征。与IL-1β孵育的缺氧ptec显示出不同于单独缺氧、单独IL-1β或常氧条件下培养的ptec的离散转录组谱。与常氧PTECs相比,缺氧+ il -1β处理的PTECs具有692个“独特的”差异表达基因(DEGs),“细胞周期”是基于“独特的”下调DEGs(包括CCNA2, CCNB1和CCNB2)的最显著富集的KEGG途径。与正常条件相比,缺氧+ il -1β处理的ptec表现出细胞衰老的特征,增殖减少,G2/M细胞周期停滞,p21表达增加,衰老相关β-半乳糖苷酶(SA-β-gal)活性升高,促炎/纤维化衰老相关分泌表型(SASP)因子的产生增加。用I型IL-1受体(IL-1RI)中和抗体或抗衰老药物槲皮素+达沙替尼联合治疗缺氧+IL-1β处理的ptec,可减轻衰老细胞负荷。体外研究结果在人类CKD生物标本(肾脏组织,尿液)中得到验证,纤维化肾脏中检测到PTEC IL-1RI表达升高和衰老(SA-β-gal活性),衰老(SA-β-gal+)尿PTEC数量与尿IL-1β水平和间质纤维化严重程度相关。我们的数据确定了缺氧与IL-1β/IL-1RI信号联合触发PTEC衰老的机制,为恢复人类CKD的小管再生提供了新的治疗和诊断检查点。
Human proximal tubular epithelial cell interleukin-1 receptor signalling triggers G2/M arrest and cellular senescence during hypoxic kidney injury.
Hypoxia and interleukin (IL)-1β are independent mediators of tubulointerstitial fibrosis, the histological hallmark of chronic kidney disease (CKD). Here, we examine how hypoxia and IL-1β act in synergy to augment maladaptive proximal tubular epithelial cell (PTEC) repair in human CKD. Ex vivo patient-derived PTECs were cultured under normoxic (21% O2) or hypoxic (1% O2) conditions in the absence or presence of IL-1β and examined for maladaptive repair signatures. Hypoxic PTECs incubated with IL-1β displayed a discrete transcriptomic profile distinct from PTECs cultured under hypoxia alone, IL-1β alone or under normoxia. Hypoxia+IL-1β-treated PTECs had 692 'unique' differentially expressed genes (DEGs) compared to normoxic PTECs, with 'cell cycle' the most significantly enriched KEGG pathway based on 'unique' down-regulated DEGs (including CCNA2, CCNB1 and CCNB2). Hypoxia+IL-1β-treated PTECs displayed signatures of cellular senescence, with reduced proliferation, G2/M cell cycle arrest, increased p21 expression, elevated senescence-associated β-galactosidase (SA-β-gal) activity and increased production of pro-inflammatory/fibrotic senescence-associated secretory phenotype (SASP) factors compared to normoxic conditions. Treatment of Hypoxia+IL-1β-treated PTECs with either a type I IL-1 receptor (IL-1RI) neutralizing antibody or a senolytic drug combination, quercetin+dasatinib, attenuated senescent cell burden. In vitro findings were validated in human CKD bio-specimens (kidney tissue, urine), with elevated PTEC IL-1RI expression and senescence (SA-β-gal activity) detected in fibrotic kidneys and numbers of senescent (SA-β-gal+) urinary PTECs correlating with urinary IL-1β levels and severity of interstitial fibrosis. Our data identify a mechanism whereby hypoxia in combination with IL-1β/IL-1RI signalling trigger PTEC senescence, providing novel therapeutic and diagnostic check-points for restoring tubular regeneration in human CKD.
期刊介绍:
Brought to readers by the editorial team of Cell Death & Differentiation, Cell Death & Disease is an online peer-reviewed journal specializing in translational cell death research. It covers a wide range of topics in experimental and internal medicine, including cancer, immunity, neuroscience, and now cancer metabolism.
Cell Death & Disease seeks to encompass the breadth of translational implications of cell death, and topics of particular concentration will include, but are not limited to, the following:
Experimental medicine
Cancer
Immunity
Internal medicine
Neuroscience
Cancer metabolism
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