Discovery of novel phenoxybenzamide analogues as Raf/HDAC dual inhibitors

Histone deacetylase (HDAC) inhibitors as an important epigenetic therapeutic strategy affect signaling networks and act synergistically with kinase inhibitors for the treatment of cancer. Herein we presented a series of novel phenoxybenzamide analogues with inhibition of Raf and HDAC. Among them, compound 10e showed potent antiproliferative activities against Hepg2 and MDA-MB-468 in cellular assays. This work may lay the foundation for developing novel dual Raf/HDAC inhibitors as potential anticancer therapeutics.     

The Raf-like kinase Raf36 negatively regulates plant resistance against the oomycete pathogen Phytophthora parasitica by targeting MKK2

Oomycetes represent a unique group of plant pathogens that are phylogenetically distant from true fungi and cause significant crop losses and environmental damage. Understanding of the genetic basis of host plant susceptibility facilitates the development of novel disease resistance strategies. In this study, we report the identification of an Arabidopsis thaliana T-DNA mutant with enhanced resistance to Phytophthora parasitica with an insertion in the Raf-like mitogen-activated protein kinase kinase kinase gene Raf36. We generated additional raf36 mutants by CRISPR/Cas9 technology as well as Raf36 complementation and overexpression transformants, with consistent results of infection assays showing that Raf36 mediates Arabidopsis susceptibility to P. parasitica. Using a virus-induced gene silencing assay, we silenced Raf36 homologous genes in Nicotiana benthamiana and demonstrated by infection assays the conserved immune function of Raf36. Mutagenesis analyses indicated that the kinase activity of Raf36 is important for its immune function and interaction with MKK2, a MAPK kinase. By generating and analysing mkk2 mutants and MKK2 complementation and overexpression transformants, we found that MKK2 is a positive immune regulator in the response to P. parasitica infection. Furthermore, infection assay on mkk2 raf36 double mutant plants indicated that MKK2 is required for the raf36-conferred resistance to P. parasitica. Taken together, we identified a Raf-like kinase Raf36 as a novel plant susceptibility factor that functions upstream of MKK2 and directly targets it to negatively regulate plant resistance to P. parasitica.     

ATPR triggers acute myeloid leukaemia cells differentiation and cycle arrest via the RARα/LDHB/ERK‐glycolysis signalling axis

Acute myeloid leukaemia (AML) remains a therapeutic challenge and improvements in chemotherapy are needed. 4‐Amino‐2‐trifluoromethyl‐phenyl retinate (ATPR), a novel all‐trans retinoic acid (ATRA) derivative designed and synthesized by our team, has been proven to show superior anticancer effect compared with ATRA on various cancers. However, its potential effect on AML remains largely unknown. Lactate dehydrogenase B (LDHB) is the key glycolytic enzyme that catalyses the interconversion between pyruvate and lactate. Currently, little is known about the role of LDHB in AML. In this study, we found that ATPR showed antileukaemic effects with RARα dependent in AML cells. LDHB was aberrantly overexpressed in human AML peripheral blood mononuclear cell (PBMC) and AML cell lines. A lentiviral vector expressing LDHB‐targeting shRNA was constructed to generate a stable AML cells with low expression of LDHB. The effect of LDHB knockdown on differentiation and cycle arrest of AML cells was assessed in vitro and vivo, including involvement of Raf/MEK/ERK signalling. Finally, these data suggested that ATPR showed antileukaemic effects by RARα/LDHB/ ERK‐glycolysis signalling axis. Further studies should focus on the underlying leukaemia‐promoting mechanisms and investigate LDHB as a therapeutic target.     

Arabidopsis Raf‐like kinases act as positive regulators of subclass III SnRK2 in osmostress signaling

Given their sessile nature, land plants must use various mechanisms to manage dehydration under water‐deficit conditions. Osmostress‐induced activation of the SNF1‐related protein kinase 2 (SnRK2) family elicits physiological responses such as stomatal closure to protect plants during drought conditions. With the plant hormone ABA receptors [PYR (pyrabactin resistance)/PYL (pyrabactin resistance‐like)/RCAR (regulatory component of ABA receptors) proteins] and group A protein phosphatases, subclass III SnRK2 also constitutes a core signaling module for ABA, and osmostress triggers ABA accumulation. How SnRK2 is activated through ABA has been clarified, although its activation through osmostress remains unclear. Here, we show that Arabidopsis ABA and abiotic stress‐responsive Raf‐like kinases (AtARKs) of the B3 clade of the mitogen‐activated kinase kinase kinase (MAPKKK) family are crucial in SnRK2‐mediated osmostress responses. Disruption of AtARKs in Arabidopsis results in increased water loss from detached leaves because of impaired stomatal closure in response to osmostress. Our findings obtained in vitro and in planta have shown that AtARKs interact physically with SRK2E, a core factor for stomatal closure in response to drought. Furthermore, we show that AtARK phosphorylates S171 and S175 in the activation loop of SRK2E in vitro and that Atark mutants have defects in osmostress‐induced subclass III SnRK2 activity. Our findings identify a specific type of B3‐MAPKKKs as upstream kinases of subclass III SnRK2 in Arabidopsis. Taken together with earlier reports that ARK is an upstream kinase of SnRK2 in moss, an existing member of a basal land plant lineage, we propose that ARK/SnRK2 module is evolutionarily conserved across 400 million years of land plant evolution for conferring protection against drought.     

Epac1‐induced cellular proliferation in prostate cancer cells is mediated by B‐Raf/ERK and mTOR signaling cascades

cAMP‐dependent, PKA‐independent effects on cell proliferation are mediated by cAMP binding to EPAC and activation of Rap signaling. In this report, we employed the analogue 8‐CPT‐2‐O‐Me‐cAMP to study binding to EPAC and subsequent activation of B‐Raf/ERK and mTOR signaling in human cancer cells. This compound significantly stimulated DNA synthesis, protein synthesis, and cellular proliferation of human 1‐LN prostate cancer cells. By study of phosphorylation‐dependent activation, we demonstrate that EPAC‐mediated cellular effects require activation of the B‐Raf/ERK and mTOR signaling cascades. RNAi directed against EPAC gene expression as well as inhibitors of ERK, PI 3‐kinase, and mTOR were employed to further demonstrate the role of these pathways in regulating prostate cancer cell proliferation. These studies were then extended to several other human prostate cancer cell lines and melanoma cells with comparable results. We conclude that B‐Raf/ERK and mTOR signaling play an essential role in cAMP‐dependent, but PKA‐independent, proliferation of cancer cells. J. Cell. Biochem. 108: 998–1011, 2009. © 2009 Wiley‐Liss, Inc.     

The sulfamide moiety affords higher inhibitory activity and oral bioavailability to a series of coumarin dual selective RAF/MEK inhibitors

Introducing a sulfamide moiety to our coumarin derivatives afforded enhanced Raf/MEK inhibitory activity concomitantly with an acceptable PK profile. Novel sulfamide 17 showed potent HCT116 cell growth inhibition (IC₅₀ = 8 nM) and good PK profile (bioavailability of 51% in mouse), resulting in high in vivo antitumor efficacy in the HCT116 xenograft (ED₅₀ = 4.8 mg/kg). We confirmed the sulfamide moiety showed no negative impact on tests run on the compound to evaluate DMPK (PK profiles in three animal species, CYP inhibition and CYP induction) and the safety profile (hERG and AMES tests). Sulfamide 17 had favorable properties that warranted further preclinical assessment     

Raf激酶抑制蛋白的研究进展

Raf激酶抑制蛋白(RKIP)是磷脂酰乙醇胺结合蛋白家族的成员。RKIP通过与Raf-1结合,抑制了Ras/Raf-1/MEK/ERK信号转导通路,并在NF-κB及G蛋白偶联受体(GPCR)信号转导通路中也起重要调节作用。RKIP参与细胞凋亡、肿瘤转移、神经发育以及精子发生等病理生理过程,通过研究RKIP能为治疗相关疾病提供新思路新靶点。本文主要介绍RKIP的生物功能,着重于其在神经系统、肿瘤和生殖系统中的研究进展。     

B-Raf Regulation of Integrin α4β1-mediated Resistance to Shear Stress through Changes in Cell Spreading and Cytoskeletal Association in T Cells

The regulation of integrin-mediated adhesion is of vital importance to adaptive and innate immunity. Integrins are versatile proteins and mediate T cell migration and trafficking by binding to extracellular matrix or other cells as well as initiating intracellular signaling cascades promoting survival or activation. The MAPK pathway is known to be downstream from integrins and to regulate survival, differentiation, and motility. However, secondary roles for canonical MAPK pathway members are being discovered. We show that chemical inhibition of RAF by sorafenib or shRNA-mediated knockdown of B-Raf reduces T cell resistance to shear stress to α4β1 integrin ligands vascular cell adhesion molecule 1 (VCAM-1) and fibronectin, whereas inhibition of MEK/ERK by U0126 had no effect. Microscopy showed that RAF inhibition leads to significant inhibition of T cell spreading on VCAM-1. The association of α4β1 integrin with the actin cytoskeleton was shown to be dependent on B-Raf activity or expression, whereas α4β1 integrin affinity for soluble VCAM-1 was not. These effects were shown to be specific for α4β1 integrin and not other integrins, such as α5β1 or LFA-1, or a variety of membrane proteins. We demonstrate a novel role for B-Raf in the selective regulation of α4β1 integrin-mediated adhesion.     

Growth arrest signaling of the Raf/MEK/ERK pathway in cancer

The Raf/MEK/extraceUular signal-regulated kinase （ERK） pathway has a pivotal role in facilitating cell proliferation, and its deregulated activation is a central signature of many epithelial cancers. However paradoxically, sustained activity of Raf/MEK/ERK can also result in growth arrest in many different cell types. This anti-proliferative Raf/MEK/ERK signaling also has physiological significance, as exemplified by its potential as a tumor suppressive mechanism. Therefore, significant questions include in which cell types and by what mechanisms this pathway can mediate such an opposing context of signaling. Particularly, our understating of the role of ERK1 and ERK2, the focal points of pathway signaling, in growth arrest signaling is still limited. This review discusses these aspects of Raf/MEK/ ERK-mediated growth arrest signaling.     

维生素K3通过调控Ras信号通路抑制前列腺癌细胞增殖

摘要 目的：研究维生素K3对前列腺癌细胞增殖的影响及其机制。方法：CCK-8检测维生素K3对前列腺癌细胞系增殖的影响;应用siRNA干扰Siah2表达之后,CCK-8检测维生素K3对前列腺癌细胞系增殖的影响;Western Blot检测维生素K3对前列腺癌细胞Siah2和Spry2表达的影响;免疫共沉淀技术检测维生K3对Siah2介导的Spry2泛素化水平的影响;Western Blot检测维生素K3对Ras信号通路中pERK表达的影响;构建裸鼠皮下前列腺癌模型,研究维生素K3对肿瘤生长的影响。结果：维生素K3抑制前列腺癌细胞系增殖,并且维生素K3浓度越高,对细胞抑制增殖作用越明显。前列腺癌细胞中干扰Siah2表达后,10 μM维生素K3对细胞增殖无明显抑制作用即维生素K3对前列腺癌细胞增殖抑制作用依赖Siah2。10 μM维生素K3能减弱Siah2对Spry2的泛素化水平使Spry 2表达升高。维生素K3能使前列腺癌细胞中Ras信号通路中的pERK蛋白表达降低。动物实验显示维生素K3治疗12天后,对照组和维生素K3组间肿瘤体积大小具有统计学差异,说明维生素K3能够有效地抑制裸鼠皮下前列腺癌生长。结论：维生素K3通过抑制Siah2泛素连接酶活性,介导其底物Spry2表达升高,进而抑制Ras/Raf/MEK/ERK信号通路起到抑制前列腺细胞增殖作用。