Xiaozhao Lu

LncRNA: a link between RNA and cancer.

Unraveling the gene expression networks governing cancer initiation and development is essential while remains largely uncompleted. With the innovations in RNA-seq technologies and computational biology, long noncoding RNAs (lncRNAs) are being identified and characterized at a rapid pace. Recent findings reveal that lncRNAs are implicated in serial steps of cancer development. These lncRNAs interact with DNA, RNA, protein molecules and/or their combinations, acting as an essential regulator in chromatin organization, and transcriptional and post-transcriptional regulation. Their misexpression confers the cancer cell capacities for tumor initiation, growth, and metastasis. The review here will emphasize their aberrant expression and function in cancer, and the roles in cancer diagnosis and therapy will be also discussed.

Adrenaline promotes cell proliferation and increases chemoresistance in colon cancer HT29 cells through induction of miR-155

Recently, catecholamines have been described as being involved in the regulation of cancer genesis and progression. Here, we reported that adrenaline increased the cell proliferation and decreased the cisplatin induced apoptosis in HT29 cells. Further study found that adrenaline increased miR-155 expression in an NFκB dependent manner. HT29 cells overexpressing miR-155 had a higher cell growth rate and more resistance to cisplatin induced apoptosis. In contrast, HT29 cells overexpressing miR-155 inhibitor displayed decreased cell proliferation and sensitivity to cisplatin induced cell death. In summary, our study here revealed that adrenaline-NFκB-miR-155 pathway at least partially contributes to the psychological stress induced proliferation and chemoresistance in HT29 cells, shedding light on increasing the therapeutic strategies of cancer chemotherapy.

E2F1 and RNA binding protein QKI comprise a negative feedback in the cell cycle regulation.

pRb/E2F1 activity is coordinately regulated during the cell cycle progression, while the molecular strategies safeguarding this pathway are not fully understood. We have previously shown that RNA binding protein QKI inhibits the cell proliferation and promotes the differentiation of gastrointestinal epithelium, suggesting a role of QKI in cell cycle regulation. Here we found that with the cell entry into S phase, QKI expression increased both at the mRNA and protein levels, which was reminiscent of cyclin E expression. Forced expression of E2F1 increased the endogenous level of QKI. Promoter luciferase assay and ChIP analysis identified that the -542~-538 E2F1 binding site was responsible for the upregulation. Increased QKI expression by E2F1, in turn, reduced the E2F1 activity and delayed S-phase entry, forming a negative feedback. As a gene expression regulator, QKI overexpression increased p27, while it decreased cyclin D1 and c-fos expression. Molecularly, p27 and c-fos were direct targets of QKI, while cyclin D1 reduction might be an indirect effect. Taken together, our results reveal that E2F1 directly transcribes QKI, which, in turn, negatively regulates the cell cycle by targeting multiple cell cycle regulators, forming an E2F1-QKI-pRb/E2F1 negative feedback loop.

The tumor suppressing effects of QKI-5 in prostate cancer: A novel diagnostic and prognostic protein

In recent years, the RNA-binding protein quaking 5 (QKI-5) has been recognized as a novel tumor suppressor in many cancers. To date, no studies have examined the role of QKI-5 in prostate cancer. The present study was designed to elucidate the correlation of QKI-5 expression with the clinical pathological features and prognosis of prostate cancer. In an overwhelming majority of the 184 cases of prostate cancer samples analyzed, the QKI-5 expression was significantly decreased, which was largely due to the high promoter methylation levels. Using lentiviral vectors, we established two stable prostate cancer cell lines with altered QKI-5 expression, including a QKI-5 overexpressing PC3 cell line and a DU145 cell line with knocked-down QKI-5 expression. The effects of the lentiviral-mediated QKI-5 knockdown on the PC3 cells and DU145 cells were assessed by cell growth curves, flow cytometry (FCM), and an invasion assay. The PC3 cells were transplanted into nude mice, and then, the tumor growth curves and TUNEL staining were determined. These results demonstrated that QKI-5 was highly expressed in benign prostatic hyperplasia (BPH) tissues but not in carcinomatous tissues and that QKI-5 effectively inhibited prostate cancer cell proliferation in vitro and in vivo. In addition, the decrease in QKI-5 expression was closely correlated with the prostate cancer Gleason score, poor differentiation, degree of invasion, lymph node metastasis, distant metastasis, TNM grading, and poor survival. These results indicate that the QKI-5 expression may be a novel, independent factor in the prognosis of prostate cancer patients.

QKI impairs self-renewal and tumorigenicity of oral cancer cells via repression of SOX2

Cancer stem cells (CSCs) may contribute to tumor initiation, distant metastasis and chemo-resistance. One of RNA-binding proteins, Quaking (QKI), was reported to be a tumor suppressor. Here we showed that reduced QKI levels were observed in many human oral cancer samples. Moreover further reduction of QKI expression in CSCs was detected compared with non-CSCs in oral cancer cell lines. Overexpressing QKI in oral cancer cells significantly reduced CSC sphere formation and stem cell-associated genes. In tumor implanting nude mice model, QKI significantly impeded tumor initiation rates, tumor sizes and lung metastasis rates. As a contrast, knocking down QKI enhanced the above effects. Among the putative CSC target genes, SOX2 expression was negatively affected by QKI, mechanism study revealed that QKI may directly regulate SOX2 expression via specific binding with its 3′UTR in a cis element-dependent way. Loss of SOX2 even completely reversed the sphere forming ability in QKI knockdown cell line. Taken together, these data demonstrated that SOX2 is an important CSC regulator in oral cancer. QKI is a novel CSC inhibitor and impaired multiple oral CSC properties via partial repression of SOX2. Therefore, reduced expression of QKI may provide a novel diagnostic marker for oral cancer.

The RNA-binding protein QKI5 is a direct target of C/EBPα and delays macrophage differentiation.

During monocyte–macrophage differentiation, C/EBPα transcriptionally activates QKI, which in turn represses CSF1R and thus provides negative feedback to C/EBPα-induced macrophage differentiation. This feedback loop should be important in keeping the balance between cell proliferation and differentiation.

Cytoplasmic translocation of HuR contributes to angiotensin II induced cardiac fibrosis

Cardiac fibrosis is one of the key structural changes of the hypertrophied left ventricle in hypertensive heart disease. Increased angiotensin II was found to be important in the hypertension related fibrosis, while the underlying mechanism is unknown. In this study, we found that angiotensin II dose-dependently increased the expression of Col1a1, Col3a1 and α-smooth muscle actin, which were blocked by ROS (reactive oxygen species) scavenger N-acetyl cysteine (NAC). Mechanistically, angiotensin II induced robust ROS generation, which in turn induced cytoplasmic translocation of RNA binding protein HuR. Cytoplasmic translocated HuR increased TGFβ pathway activity and subsequent collagen synthesis. In contrast, knockdown of HuR nearly blocked angiotensin II induced TGFβ activation and collagen synthesis. Taken together, we here identified that angiotensin II promotes collagen synthesis in cardiac fibroblast through ROS-HuR-TGFβ pathway.

The sense strand pre-cleaved RNA duplex mediates an efficient RNA interference with less off-target and immune response effects

RNA interference is an appealing and promising therapeutic approach in cancer and other diseases. Designing novel strategies aiming to increase the efficiency, duration, and reduce the off-target silencing by sense strand is of great significance for its future application clinically. Here, we report that RNA duplex with the sense strand pre-cleaved at the base between base 10 and 11 relative to the 5′ end of the antisense strand induced a target-specific RNA silencing effectively. Furthermore, different from the canonical RNA duplex, this novel RNA duplex rarely inhibits the luciferase activity in the reporter, bearing the target sequence corresponding to the sense strand, suggesting a less off-target effects of this novel strategy. Furthermore, the immune response of the novel RNA duplex induced a much milder immune response as seen from the NFkappaB activity. In addition, our newly designed RNA duplex should be easier for preservation than the asymmetric RNA duplex. Our results establish a novel method to design a new class of RNA duplex for improved RNA interference.

Sedentary lifestyle related exosomal release of Hotair from gluteal-femoral fat promotes intestinal cell proliferation

Pioneering epidemiological work has established strong association of sedentary lifestyle and obesity with the risk of colorectal cancer, while the detailed underlying mechanism remains unknown. Here we show that Hotair (HOX transcript antisense RNA) is a pro-adipogenic long non-coding RNA highly expressed in gluteal-femoral fat over other fat depots. Hotair knockout in adipose tissue results in gluteal-femoral fat defect. Squeeze of the gluteal-femoral fat induces intestinal proliferation in wildtype mice, while not in Hotair knockout mice. Mechanistically, squeeze of the gluteal-femoral fat induces exosomal Hotair secretion mainly by transcriptional upregulation of Hotair via NFκB. And increased exosomal Hotair in turn circulates in the blood and is partially endocytosed by the intestine, finally promoting the stemness and proliferation of intestinal stem/progenitor cells via Wnt activation. Clinically, obese subjects with sedentary lifestyle have much higher exosomal HOTAIR expression in the serum. These findings establish that sedentary lifestyle promotes exosomal Hotair release from the gluteal-femoral fat, which in turn facilitates intestinal stem and/or progenitor proliferation, raising a possible link between sedentary lifestyle with colorectal tumorigenesis.

Adrenaline promotes epithelial-to-mesenchymal transition via HuR-TGFβ regulatory axis in pancreatic cancer cells and the implication in cancer prognosis

Psychological stress has recently been described as a risk factor in the development of pancreatic cancer. Here, we reported that increased neurotransmitter adrenaline was associated with the poor survival in pancreatic cancer patients. Moreover, in the cell model study, we found adrenaline promoted pancreatic cell PANC-1 migration in a dose dependent manner. Block of the β2-adrenoreceptor with ICI118,551, significantly reduced cell migration. Further study found that adrenaline induced a cytoplasmic translocation of RNA binding protein HuR, which in turn activated TGFβ, as shown by the SBE luciferase assay and phosphorylation of Smad2/3. Either HuR knockdown or TGFβ inhibition reduced cell migration induced by adrenaline. Taken together, our study here revealed that adrenaline-HuR-TGFβ regulatory axis at least partially contributes to the psychological stress induced metastasis in PANC-1 cells, shedding light on therapeutic targeting psychological stress in improving the prognosis of pancreatic cancer.