Prostaglandin E2 (PGE2) is one of the most typical lipid mediators produced from arachidonic acid (AA) by cyclooxygenase (COX) as the rate-limiting enzyme, and acts on four kinds of receptor subtypes ...(EP1–EP4) to elicit its diverse actions including pyrexia, pain sensation, and inflammation. Recently, the molecular mechanisms underlying the PGE2 actions mediated by each EP subtype have been elucidated by studies using mice deficient in each EP subtype as well as several compounds highly selective to each EP subtype, and their findings now enable us to discuss how PGE2 initiates and exacerbates inflammation at the molecular level. Here, we review the recent advances in PGE2 receptor research by focusing on the activation of mast cells via the EP3 receptor and the control of helper T cells via the EP2/4 receptor, which are the molecular mechanisms involved in PGE2-induced inflammation that had been unknown for many years. We also discuss the roles of PGE2 in acute inflammation and inflammatory disorders, and the usefulness of anti-inflammatory therapies that target EP receptors. This article is part of a Special Issue entitled “Oxygenated metabolism of PUFA: analysis and biological relevance”.
•Prostaglandin E2 (PGE2) is a lipid mediator produced by cyclooxygenases.•PGE2 elicits its diverse actions via four receptors, EP1 to EP4.•PGE2 activates mast cells via the EP3 receptor in mouse skin.•PGE2 facilitates Th1 differentiation and Th17 cell expansion via EP2/4 receptors.•Through these mechanisms, PGE2 plays a role in the pathogenesis of immune disorders.
Ribosome biogenesis proceeds with the successive cleavage and trimming of the large 47S rRNA precursor, where the RNA exosome plays major roles in concert with the Ski2-like RNA helicase, MTR4. The ...recent finding of a consensus amino acid sequence, the arch-interacting motif (AIM), for binding to the arch domain in MTR4 suggests that recruitment of the RNA processing machinery to the maturing pre-rRNA at appropriate places and timings is mediated by several adaptor proteins possessing the AIM sequence. In yeast Saccharomyces cerevisiae, Nop53 plays such a role in the maturation of the 3′-end of 5.8S rRNA. Here, we investigated the functions of PICT1 (also known as GLTSCR2 or NOP53), a mammalian ortholog of Nop53, during ribosome biogenesis in human cells. PICT1 interacted with MTR4 and exosome in an AIM-dependent manner. Overexpression of PICT1 mutants defecting AIM sequence and siRNA-mediated depletion of PICT1 showed that PICT1 is involved in two distinct pre-rRNA processing steps during the generation of 60S ribosomes; first step is the early cleavage of 32S intermediate RNA, while the second step is the late maturation of 12S precursor into 5.8S rRNA. The recruitment of MTR4 and RNA exosome via the AIM sequence was required only during the late processing step. Although, the depletion of MTR4 and PICT1 induced stabilization of the tumor suppressor p53 protein in cancer cell lines, the depletion of the exosome catalytic subunits, RRP6 and DIS3, did not exert such an effect. These results suggest that recruitment of the RNA processing machinery to the 3′-end of pre-5.8S rRNA may be involved in the induction of the nucleolar stress response, but the pre-rRNA processing capabilities themselves were not involved in this process.
•PICT1 is involved in pre-rRNA processing and 60S ribosome biogenesis.•PICT1 interacts with MTR4 and RNA exosome via a conserved AIM sequence.•PICT1 is involved in two distinct steps in the pre-rRNA processing pathway.•Only the late 5.8S rRNA maturation step requires the AIM sequence in PICT1.•Depletion of MTR4 and PICT1 increases p53 levels in cells.
Tamibarotene (Am80), a synthetic retinoid approved in Japan for treatment of acute promyelocytic leukemia (APL), is a retinoic acid receptor (RAR) agonist with high specificity for RARα and RARβ over ...RARγ. Temporarily and spatially specific expression of RARs suggests their pivotal roles in the adult brain. Am80 is considered to be a promising candidate drug for treatment of Alzheimer’s disease (AD) because of its transcriptional controls of multiple target genes involved in etiology and pathology of AD. In APP23 AD model mice, administration of Am80 decreased the deposition of insoluble amyloid-β(42). In senescence-accelerated mice (SAMP8), Am80 ameliorated the decrease of cortical acetylcholine, as well as reducing anxiety in behavioral tests and improving the sleep deficit. Am80 also effected a significant improvement of memory in the rat scopolamine-induced memory deficit model. Like other retinoids, Am80 also has an immunomodulatory effect and reduces secretion of proinflammatory cytokines and chemokines by astrocytes and microglia surrounding amyloid-β plaques. In a rat experimental autoimmune encephalomyelitis model, Am80 reduced inflammatory cytokines and showed significant efficacy. Retinoids also promote differentiation of neural stem cells, and Am80 improved the recovery of spinal cord-injured rats. Am80 may also improve vascular factors involved in onset and/or progression of AD. Am80 has been in clinical use for treatment of APL in Japan since 2005, and has been reported to have fewer side effects than other retinoids. We have recently started a clinical study to evaluate the efficacy and safety of Am80 for the treatment of Alzheimer’s disease.
Metabolic reprograming of cancer as a therapeutic target Furukawa, Tatsuhiko; Tabata, Sho; Minami, Kentaro ...
Biochimica et biophysica acta. General subjects,
March 2023, 2023-03-00, 20230301, Letnik:
1867, Številka:
3
Journal Article
Recenzirano
Odprti dostop
Our understanding of metabolic reprogramming in cancer has tremendously improved along with the technical progression of metabolomic analysis. Metabolic changes in cancer cells proved much more ...complicated than the classical Warburg effect. Previous studies have approached metabolic changes as therapeutic and/or chemopreventive targets. Recently, several clinical trials have reported anti-cancer agents associated with metabolism. However, whether cancer cells are dependent on metabolic reprogramming or favor suitable conditions remains nebulous. Both scenarios are possibly intertwined. Identification of downstream molecules and the understanding of mechanisms underlying reprogrammed metabolism can improve the effectiveness of cancer therapy. Here, we review several examples of the metabolic reprogramming of cancer cells and the therapies targeting the metabolism-related molecules as well as discuss practical approaches to improve the next generation of cancer therapies focused on the metabolic reprogramming of cancer.
•Metabolic reprogramming of cancer cells supports their survival and growth.•The metabolic provides tumors building blocks, energy, and epigenetic modification.•A mutant IDH1/2 inhibitor is approved as a clinical treatment for ICC and AML.•Several metabolic changes in cancer cells are promising therapeutic targets.
Glioblastoma multiforme (GBM), the most common brain malignancy in adults, is generally aggressive and incurable, even with multiple treatment modalities and agents. Filamins (FLNs) are a group of ...actin-binding proteins that regulate the actin cytoskeleton in cells. However, the role of FLNs in malignancies-particularly in GBM-is unclear.
The relation between FLNC expression and overall survival in GBM was evaluated by the Kaplan-Meier analysis using GBM patients from the Kagoshima University Hospital (n = 90) and data from the Cancer Genome Atlas (TCGA) (n = 153). To assess FLNC function in GBM, cell migration and invasion were examined with Transwell and Matrigel invasion assays using FLNC-overexpressing U251MG and LN299 GBM cells, and ShRNA-mediated FLNC knocked-down KNS81 and U87MG cells. The gelatin zymography assay was used to estimate matrix metalloproteinase (MMP) 2 activity.
In silico analysis of GBM patient data from TCGA and immunohistochemical analyses of clinical GBM specimens revealed that increased FLNC expression was associated with poor patient prognosis. FLNC overexpression in GBM cell lines was positively correlated with enhanced invasiveness, but not migration, and was accompanied by upregulation of MMP2.
FLNC is a potential therapeutic target and biomarker for GBM progression.
Non-small cell lung cancer (NSCLC) is the most frequent cause of cancer-related death worldwide. Although many molecular-targeted drugs for NSCLC have been developed in recent years, the 5-year ...survival rate of patients with NSCLC remains low. Therefore, an improved understanding of the molecular mechanisms underlying the biology of NSCLC is essential for developing novel therapeutic strategies for the treatment of NSCLC. In this study, we examined the role of miR-130b in NSCLC. Our results showed that high expression of miR-130b in clinical specimens was significantly associated with poor overall survival in patients with NSCLC. Moreover, miR-130b expression was significantly increased in NSCLC clinical specimens from patients with vascular and lymphatic invasion. Consistent with this, overexpression of miR-130b promoted invasion and matrix metalloproteinase-2 (MMP-2) activity in A549 cells. Argonaute2 immunoprecipitation and gene array analysis identified tissue inhibitor of metalloproteinase-2 (TIMP-2) as a target of miR-130b. Invasion activity promoted by miR-130b was attenuated by TIMP-2 overexpression in A549 cells. Furthermore, TIMP-2 concentrations in serum were inversely correlated with relative miR-130b expression in tumor tissues from the same patients with NSCLC. Overall, miR-130b was found to act as an oncomiR, promoting metastasis by downregulating TIMP-2 and invasion activities in NSCLC cells.
Nucleolar stress response is caused by perturbations in ribosome biogenesis, induced by the inhibition of ribosomal RNA processing and synthesis, as well as ribosome assembly. This response induces ...p53 stabilization and activation via ribosomal protein L11 (RPL11), suppressing tumor progression. However, anticancer agents that kill cells via this mechanism, and their relationship with the therapeutic efficiency of these agents, remain largely unknown. Here, we sought to investigate whether topoisomerase inhibitors can induce nucleolar stress response as they reportedly block ribosomal RNA transcription. Using rhabdomyosarcoma and rhabdoid tumor cell lines that are sensitive to the nucleolar stress response, we evaluated whether nucleolar stress response is associated with sensitivity to topoisomerase inhibitors ellipticine, doxorubicin, etoposide, topotecan, and anthracyclines. Cell proliferation assay indicated that small interfering RNA-mediated RPL11 depletion resulted in decreased sensitivity to topoisomerase inhibitors. Furthermore, the expression of p53 and its downstream target proteins via western blotting showed the suppression of p53 pathway activation upon RPL11 knockdown. These results suggest that the sensitivity of cancer cells to topoisomerase inhibitors is regulated by RPL11-mediated nucleolar stress responses. Thus, RPL11 expression may contribute to the prediction of the therapeutic efficacy of topoisomerase inhibitors and increase their therapeutic effect of topoisomerase inhibitors.
Cancer stem-like cells (CSCs) exist in tumor tissues composed of heterogeneous cell population and are characterized by their self-renewal capacity and tumorigenicity. Many studies demonstrate that ...eradication of CSCs prevents development and recurrences of tumor; yet, molecules critical for the maintenance of CSCs have not been completely understood. We previously reported that Semaphorin3A (Sema3a) knockdown suppressed the tumorigenicity and proliferative capacity of Lewis lung carcinoma (LLC) cells. Therefore, we identified Sema3a as an essential factor for the establishment or maintenance of CSCs derived from LLC (LLC-stem cell). shRNA against Sema3a was introduced into LLC cells to establish a LLC-stem cell line and its effects on tumorigenesis, sphere formation, and mTORC1 activity were tested. Sema3a knockdown completely abolished tumorigenicity and the sphere-formation and self-renewal ability of LLC-stem cells. The Sema3a knockdown was also associated with decreased expression of mRNA for stem cell markers. The self-renewal ability abolished by Sema3a knockdown could not be recovered by exogenous addition of recombinant SEMA3A. In addition, the activity of mammalian target of rapamycin complex 1 (mTORC1) and the expression of its substrate p70S6K1 were also decreased. These results demonstrate that Sema3a is a potential therapeutic target in eradication of CSCs.
•Sema3a enhances tumorigenic capacity of cancer stem-like cells.•Sema3a is essential for the maintenance of cancer stem-like cells.•Sema3a can be a therapeutic target to eradicate cancer stem-like cells.
The human AlkB homolog family (ALKBH) of proteins play a critical role in some types of cancer. However, the expression and function of the lysine demethylase ALKBH4 in cancer are poorly understood. ...Here, we examined the expression and function of ALKBH4 in non-small-cell lung cancer (NSCLC) and found that ALKBH4 was highly expressed in NSCLC, as compared to that in adjacent normal lung tissues. ALKBH4 knockdown significantly induced the downregulation of NSCLC cell proliferation via cell cycle arrest at the G
phase of in vivo tumour growth. ALKBH4 knockdown downregulated E2F transcription factor 1 (E2F1) and its target gene expression in NSCLC cells. ALKBH4 and E2F1 expression was significantly correlated in NSCLC clinical specimens. Moreover, patients with high ALKBH4 expression showed a poor prognosis, suggesting that ALKBH4 plays a pivotal tumour-promoting role in NSCLC.
Aberration of signaling pathways by genetic mutations or alterations in the surrounding tissue environments can result in tumor development or metastasis. However, signaling molecules responsible for ...these processes have not been completely elucidated. Here, we used mouse Lewis lung carcinoma cells (LLC) to explore the mechanism by which the oncogenic activity of Semaphorin3A (Sema3A) signaling is regulated. Sema3A knockdown by shRNA did not affect apoptosis, but decreased cell proliferation in LLCs; both the mammalian target of rapamycin complex 1 (mTORC1) level and glycolytic activity were also decreased. In addition, Sema3A knockdown sensitized cells to inhibition of oxidative phosphorylation by oligomycin, but conferred resistance to decreased cell viability induced by glucose starvation. Furthermore, recombinant SEMA3A rescued the attenuation of cell proliferation and glycolytic activity in LLCs after Sema3A knockdown, whereas mTORC1 inhibition by rapamycin completely counteracted this effect. These results demonstrate that Sema3A signaling exerts its oncogenic effect by promoting an mTORC1-mediated metabolic shift from oxidative phosphorylation to aerobic glycolysis.
•Sema3A knockdown decreased proliferation of Lewis lung carcinoma cells (LLCs).•Sema3A knockdown decreased mTORC1 levels and glycolytic activity in LLCs.•Sema3A knockdown sensitized cells to inhibition of oxidative phosphorylation.•Sema3A promotes shift from oxidative phosphorylation to aerobic glycolysis via mTORC1.