己糖激酶2对于T细胞依赖性免疫是可有可无的。
Hexokinase 2 is dispensable for T cell-dependent immunity.
作者信息
Mehta Manan M, Weinberg Samuel E, Steinert Elizabeth M, Chhiba Krishan, Martinez Carlos Alberto, Gao Peng, Perlman Harris R, Bryce Paul, Hay Nissim, Chandel Navdeep S
机构信息
1Department of Medicine, Northwestern University Feinberg School of Medicine, McGaw Pavilion, Rm. M-334, 240 East Huron Street, Chicago, IL 60611 USA.
2Department of Biochemistry and Molecular Genetics, Northwestern University Feinberg School of Medicine, Chicago, IL 60611 USA.
出版信息
Cancer Metab. 2018 Aug 17;6:10. doi: 10.1186/s40170-018-0184-5. eCollection 2018.
BACKGROUND
T cells and cancer cells utilize glycolysis for proliferation. The hexokinase (1-4) family of enzymes catalyze the first step of glycolysis. Hexokinase 2 (HK2) is one of the most highly upregulated metabolic enzymes in both cancer and activated T cells. HK2 is required for the development and/or growth of cancer in several cancer models, but the necessity of HK2 in T cells is not fully understood. The clinical applicability of HK2 inhibition in cancer may be significantly limited by any potential negative effects of HK2 inhibition on T cells. Therefore, we investigated the necessity of HK2 for T cell function. In order to identify additional therapeutic cancer targets, we performed RNA-seq to compare in vivo proliferating T cells to T cell leukemia.
METHODS
HK2 was genetically ablated in mouse T cells using a floxed allele crossed to CD4-Cre. CD4+ and CD8+ cells from mice were characterized metabolically and tested in vitro. T cell function in vivo was tested in a mouse model of colitis, Th2-mediated lung inflammation, and viral infection. Treg function was tested by crossing -floxed mice to FoxP3-Cre mice. Hematopoietic function was tested by deleting HK2 from bone marrow with Vav1-iCre. RNA-seq was used to compare T cells proliferating in response to virus with primary T-ALL leukemia induced with mutant Notch1 expression.
RESULTS
We unexpectedly report that HK2 is largely dispensable for in vitro T cell activation, proliferation, and differentiation. Loss of HK2 does not impair in vivo viral immunity and causes only a small impairment in the development of pathological inflammation. HK2 is not required for Treg function or hematopoiesis in vivo. One hundred sixty-seven metabolic genes were identified as being differentially expressed between T cells and leukemia.
CONCLUSIONS
HK2 is a highly upregulated enzyme in cancer and in T cells. The requirement for HK2 in various cancer models has been described previously. Our finding that T cells are able to withstand the loss of HK2 indicates that HK2 may be a promising candidate for cancer therapy. Furthermore, we identify several other potential metabolic targets in T-ALL leukemia that could spare T cell function.
背景
T细胞和癌细胞利用糖酵解进行增殖。己糖激酶(1 - 4)家族的酶催化糖酵解的第一步。己糖激酶2(HK2)是癌症和活化T细胞中上调程度最高的代谢酶之一。在几种癌症模型中,HK2是癌症发生和/或生长所必需的,但HK2在T细胞中的必要性尚未完全明确。HK2抑制对T细胞的任何潜在负面影响可能会显著限制HK2抑制在癌症治疗中的临床应用。因此,我们研究了HK2对T细胞功能的必要性。为了确定其他治疗癌症的靶点,我们进行了RNA测序,以比较体内增殖的T细胞和T细胞白血病。
方法
使用与CD4 - Cre杂交的floxed等位基因在小鼠T细胞中对HK2进行基因敲除。对小鼠的CD4 + 和CD8 + 细胞进行代谢特征分析并在体外进行测试。在结肠炎、Th2介导的肺部炎症和病毒感染的小鼠模型中测试体内T细胞功能。通过将floxed小鼠与FoxP3 - Cre小鼠杂交来测试调节性T细胞(Treg)功能。通过用Vav1 - iCre从骨髓中删除HK2来测试造血功能。RNA测序用于比较对病毒作出反应而增殖的T细胞与由突变Notch1表达诱导的原发性T细胞急性淋巴细胞白血病(T - ALL)。
结果
我们意外地发现,HK2在很大程度上对于体外T细胞活化、增殖和分化并非必需。HK2的缺失不会损害体内病毒免疫,并且仅对病理性炎症的发展造成轻微损害。HK2在体内Treg功能或造血过程中并非必需。确定了167个代谢基因在T细胞和白血病之间存在差异表达。
结论
HK2是癌症和T细胞中上调程度很高的酶。先前已经描述了在各种癌症模型中对HK2的需求。我们发现T细胞能够耐受HK2的缺失,这表明HK2可能是癌症治疗的一个有前景的候选靶点。此外,我们在T - ALL白血病中确定了其他几个潜在的代谢靶点,这些靶点可以保留T细胞功能。
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