scholarly journals An unexpected role for p53 in regulating cancer cell–intrinsic PD-1 by acetylation

2021 ◽  
Vol 7 (14) ◽  
pp. eabf4148
Author(s):  
Zhijie Cao ◽  
Ning Kon ◽  
Yajing Liu ◽  
Wenbin Xu ◽  
Jia Wen ◽  
...  
Keyword(s):  
Cancer Cells ◽  
Cancer Cell ◽  
Tumor Suppression ◽  
Critical Role ◽  
Dependent Manner ◽  
Tumor Suppressor P53 ◽  
Independent Manner ◽  
Deacetylase Inhibitor ◽  
Chromatin Acetylation ◽  
Cell Death Protein

Cancer cell–intrinsic programmed cell death protein-1 (PD-1) has emerged as a tumor regulator in an immunity-independent manner, but its precise role in modulating tumor behaviors is complex, and how PD-1 is regulated in cancer cells is largely unknown. Here, we identified PD-1 as a direct target of tumor suppressor p53. Notably, p53 acetylation at K120/164 played a critical role in p53-mediated PD-1 transcription. Acetylated p53 preferentially recruited acetyltransferase cofactors onto PD-1 promoter, selectively facilitating PD-1 transcription by enhancing local chromatin acetylation. Reexpression of PD-1 in cancer cells inhibited tumor growth, whereas depletion of cancer cell–intrinsic PD-1 compromised p53-dependent tumor suppression. Moreover, histone deacetylase inhibitor (HDACi) activated PD-1 in an acetylated p53–dependent manner, supporting a synergistic effect by HDACi and p53 on tumor suppression via stimulating cancer cell–intrinsic PD-1. Our study reveals a mechanism for activating cancer cell–intrinsic PD-1 and indicates that p53-mediated PD-1 activation is critically involved in tumor suppression in an immunity-independent manner.

scholarly journals Colorectal Cancer Apoptosis Induced by Dietary δ-Valerobetaine Involves PINK1/Parkin Dependent-Mitophagy and SIRT3

2021 ◽  
Vol 22 (15) ◽  
pp. 8117
Author(s):  
Nunzia D’Onofrio ◽  
Elisa Martino ◽  
Luigi Mele ◽  
Antonino Colloca ◽  
Martina Maione ◽  
...  
Keyword(s):  
Colorectal Cancer ◽  
Colon Cancer ◽  
Mitochondrial Dysfunction ◽  
Cancer Cells ◽  
Current Knowledge ◽  
Apoptotic Cell ◽  
Critical Role ◽  
Dependent Manner ◽  
Colon Cancer Cells ◽  
Protein Levels

Understanding the mechanisms of colorectal cancer progression is crucial in the setting of strategies for its prevention. δ-Valerobetaine (δVB) is an emerging dietary metabolite showing cytotoxic activity in colon cancer cells via autophagy and apoptosis. Here, we aimed to deepen current knowledge on the mechanism of δVB-induced colon cancer cell death by investigating the apoptotic cascade in colorectal adenocarcinoma SW480 and SW620 cells and evaluating the molecular players of mitochondrial dysfunction. Results indicated that δVB reduced cell viability in a time-dependent manner, reaching IC50 after 72 h of incubation with δVB 1.5 mM, and caused a G2/M cell cycle arrest with upregulation of cyclin A and cyclin B protein levels. The increased apoptotic cell rate occurred via caspase-3 activation with a concomitant loss in mitochondrial membrane potential and SIRT3 downregulation. Functional studies indicated that δVB activated mitochondrial apoptosis through PINK1/Parkin pathways, as upregulation of PINK1, Parkin, and LC3B protein levels was observed (p < 0.0001). Together, these findings support a critical role of PINK1/Parkin-mediated mitophagy in mitochondrial dysfunction and apoptosis induced by δVB in SW480 and SW620 colon cancer cells.

scholarly journals Orphan Receptor COUP-TF Is Required for Induction of Retinoic Acid Receptor β, Growth Inhibition, and Apoptosis by Retinoic Acid in Cancer Cells

2000 ◽  
Vol 20 (3) ◽  
pp. 957-970 ◽  
Author(s):  
Bingzhen Lin ◽  
Guo-quan Chen ◽  
Dongmei Xiao ◽  
Siva Kumar Kolluri ◽  
Xihua Cao ◽  
...  
Keyword(s):  
Retinoic Acid ◽  
Growth Inhibition ◽  
Cancer Cells ◽  
Retinoic Acid Receptor ◽  
Critical Role ◽  
Orphan Receptor ◽  
Dependent Manner ◽  
Anticancer Activities ◽  
Transient Transfection Assay ◽  
Acid Receptor

ABSTRACT Retinoic acid receptor β (RARβ) plays a critical role in mediating the anticancer effects of retinoids. Expression of RARβ is highly induced by retinoic acid (RA) through a RA response element (βRARE) that is activated by heterodimers of RARs and retinoid X receptors (RXRs). However, RARβ induction is often lost in cancer cells despite expression of RARs and RXRs. In this study, we provide evidence that orphan receptor COUP-TF is required for induction of RARβ expression, growth inhibition, and apoptosis by RA in cancer cells. Expression of COUP-TF correlates with RARβ induction in a variety of cancer cell lines. In addition, stable expression of COUP-TF in COUP-TF-negative cancer cells restores induction of RARβ expression, growth inhibition, and apoptosis by RA, whereas inhibition of COUP-TF by expression of COUP-TF antisense RNA represses the RA effects. In a transient transfection assay, COUP-TF strongly induced transcriptional activity of the RARβ promoter in a RA- and RARα-dependent manner. By mutation analysis, we demonstrate that the effect of COUP-TF requires its binding to a DR-8 element present in the RARβ promoter. The binding of COUP-TF to the DR-8 element synergistically increases the RA-dependent RARα transactivation function by enhancing the interaction of RARα with its coactivator CREB binding protein. These results demonstrate that COUP-TF, by serving as an accessory protein for RARα to induce RARβ expression, plays a critical role in regulating the anticancer activities of retinoids.

scholarly journals Xanthohumol Induces Growth Inhibition and Apoptosis in Ca Ski Human Cervical Cancer Cells

2015 ◽  
Vol 2015 ◽  
pp. 1-10 ◽  
Author(s):  
Wai Kuan Yong ◽  
Sri Nurestri Abd Malek
Keyword(s):  
Cell Cycle ◽  
Cervical Cancer ◽  
Cancer Cells ◽  
Cancer Cell ◽  
Morphological Changes ◽  
S Phase ◽  
Phase Cell ◽  
Cervical Cancer Cell Line ◽  
Dependent Manner ◽  
Cervical Cancer Cells

We investigate induction of apoptosis by xanthohumol on Ca Ski cervical cancer cell line. Xanthohumol is a prenylated chalcone naturally found in hop plants, previously reported to be an effective anticancer agent in various cancer cell lines. The present study showed that xanthohumol was effective to inhibit proliferation of Ca Ski cells based on IC50values using sulforhodamine B (SRB) assay. Furthermore, cellular and nuclear morphological changes were observed in the cells using phase contrast microscopy and Hoechst/PI fluorescent staining. In addition, 48-hour long treatment with xanthohumol triggered externalization of phosphatidylserine, changes in mitochondrial membrane potential, and DNA fragmentation in the cells. Additionally, xanthohumol mediated S phase arrest in cell cycle analysis and increased activities of caspase-3, caspase-8, and caspase-9. On the other hand, Western blot analysis showed that the expression levels of cleaved PARP, p53, and AIF increased, while Bcl-2 and XIAP decreased in a dose-dependent manner. Taken together, these findings indicate that xanthohumol-induced cell death might involve intrinsic and extrinsic apoptotic pathways, as well as downregulation of XIAP, upregulation of p53 proteins, and S phase cell cycle arrest in Ca Ski cervical cancer cells. This work suggests that xanthohumol is a potent chemotherapeutic candidate for cervical cancer.

scholarly journals ATP Inhibits Breast Cancer Migration and Bone Metastasis through Down-Regulation of CXCR4 and Purinergic Receptor P2Y11

Cancers ◽  
2021 ◽  
Vol 13 (17) ◽  
pp. 4293
Author(s):  
Xiaowen Liu ◽  
Manuel A. Riquelme ◽  
Yi Tian ◽  
Dezhi Zhao ◽  
Francisca M. Acosta ◽  
...  
Keyword(s):  
Breast Cancer ◽  
Cell Migration ◽  
Bone Metastasis ◽  
Cancer Cells ◽  
Cancer Cell ◽  
Breast Cancer Cells ◽  
Cxcr4 Expression ◽  
Dependent Manner ◽  
Cancer Cell Migration ◽  
Dose Dependent

ATP released by bone osteocytes is shown to activate purinergic signaling and inhibit the metastasis of breast cancer cells into the bone. However, the underlying molecular mechanism is not well understood. Here, we demonstrate the important roles of the CXCR4 and P2Y11 purinergic receptors in mediating the inhibitory effect of ATP on breast cancer cell migration and bone metastasis. Wound-healing and transwell migration assays showed that non-hydrolysable ATP analogue, ATPγS, inhibited migration of bone-tropic human breast cancer cells in a dose-dependent manner. BzATP, an agonist for P2X7 and an inducer for P2Y11 internalization, had a similar dose-dependent inhibition on cell migration. Both ATPγS and BzATP suppressed the expression of CXCR4, a chemokine receptor known to promote breast cancer bone metastasis, and knocking down CXCR4 expression by siRNA attenuated the inhibitory effect of ATPγS on cancer cell migration. While a P2X7 antagonist A804598 had no effect on the impact of ATPγS on cell migration, antagonizing P2Y11 by NF157 ablated the effect of ATPγS. Moreover, the reduction in P2Y11 expression by siRNA decreased cancer cell migration and abolished the impact of ATPγS on cell migration and CXCR4 expression. Similar to the effect of ATPγS on cell migration, antagonizing P2Y11 inhibited bone-tropic breast cancer cell migration in a dose-dependent manner. An in vivo study using an intratibial bone metastatic model showed that ATPγS inhibited breast cancer growth in the bone. Taken together, these results suggest that ATP inhibits bone-tropic breast cancer cells by down-regulating the P2Y11 purinergic receptor and the down-regulation of CXCR4 expression.

scholarly journals LncRNA NEAT1 Silenced miR-133b Promotes Migration and Invasion of Breast Cancer Cells

2019 ◽  
Vol 20 (15) ◽  
pp. 3616 ◽  
Author(s):  
Xinping Li ◽  
Siwei Deng ◽  
Xinyao Pang ◽  
Yixiao Song ◽  
Shiyu Luo ◽  
...  
Keyword(s):  
Breast Cancer ◽  
Cancer Cells ◽  
Cancer Cell ◽  
Breast Cancer Cell ◽  
Breast Cancer Cells ◽  
Critical Role ◽  
Migration And Invasion ◽  
Breast Cancer Cell Lines ◽  
Cancer Type ◽  
Lncrna Neat1

Breast cancer, the most prevalent cancer type among women worldwide, remains incurable once metastatic. Long noncoding RNA (lncRNA) and microRNA (miRNA) play important roles in breast cancer by regulating specific genes or proteins. In this study, we found miR-133b was silenced in breast cancer cell lines and in breast cancer tissues, which predicted poor prognosis in breast cancer patients. We also confirmed that lncRNA NEAT1 was up-regulated in breast cancer and inhibited the expression of miR-133b, and identified the mitochondrial protein translocase of inner mitochondrial membrane 17 homolog A (TIMM17A) that serves as the target of miR-133b. Both miR-133b knockdown and TIMM17A overexpression in breast cancer cells promoted cell migration and invasion both in vitro and in vivo. In summary, our findings reveal that miR-133b plays a critical role in breast cancer cell metastasis by targeting TIMM17A. These findings may provide new insights into novel molecular therapeutic targets for breast cancer.

scholarly journals Cisplatin and Paclitaxel Modulated the Cell Survival Potential of Prostate Cancer Cells

Proceedings ◽  
2020 ◽  
Vol 40 (1) ◽  
pp. 42
Author(s):  
Kashani ◽  
Kilbas ◽  
Yerlikaya ◽  
Gurkan ◽  
Arisan
Keyword(s):  
Prostate Cancer ◽  
Cell Viability ◽  
Cell Survival ◽  
Cancer Cells ◽  
Cancer Cell ◽  
Prostate Cancer Cell ◽  
Dependent Manner ◽  
Prostate Cancer Cells ◽  
Cell Viability Assay ◽  
Chemotherapy Drugs

Prostate cancer is the second common cause of death among men worldwide. In the treatment of prostate cancer, conventional chemotherapeutics are commonly used. The plant alkaloid Paclitaxel and platinum-based cisplatin are the most common chemotherapy drugs. The transcription factor p53 has a potential target in the regulation of cell response to DNA damage of prostate cancer. Although the effectiveness of these drugs on prostate cancer cell progression had been proved, the mechanistic action of these drugs on the progression of the disease is not detailed explained. In this study, we aim to examine the function of p53 overexpression in prostate cancer cell survival. Therefore, we treated wild type (wt) and p53 overexpressed PC3 (p53+) prostate cancer cells with cisplatin or paclitaxel. According to the MTT Cell Viability assay, cisplatin (12.5–25–50 µM) was found to be more effective decreasing PC3 and PC3 p53+ cell viability in a dose-dependent manner compared to paclitaxel (12.5–25–50 nM). Colony formation assay showed that treatment of cells with cisplatin or paclitaxel caused the loss of colony forming ability of PC3 and PC3 p53+ cells. In addition, the critical apoptotic markers Caspase-3 and Caspase-9 expressions were altered with cisplatin or paclitaxel treated PC3 wt and p53+ cells.

Interaction and Regulation of HSC with Osteopontin Is Mediated through α4β1 and α9β1Integrins, Which Are Differentially Expressed in the HSC Pool.

Blood ◽  
2006 ◽  
Vol 108 (11) ◽  
pp. 1330-1330
Author(s):  
David N. Haylock ◽  
Genevieve A. Whitty ◽  
Brenda Williams ◽  
Melonie J. Storan ◽  
Susie K. Nilsson
Keyword(s):  
Cord Blood ◽  
Critical Role ◽  
Negative Regulator ◽  
Hemopoietic Stem Cell ◽  
Null Mouse ◽  
Dependent Manner ◽  
Independent Manner ◽  
Hsc Niche

Abstract Osteoblasts are a key cellular component of the hemopoietic stem cell (HSC) niche and directly regulate the HSC pool. Molecules synthesised by osteoblasts both promote or inhibit HSC proliferation. Osteopontin (Opn) is an osteoblast produced, RGD containing protein with roles in cell adhesion and migration. Until recently, the role of Opn in hemopoiesis was seen as restricted to the regulation of bone turnover. However, from analysis of hemopoiesis in the Opn null mouse, we have demonstrated that Opn plays a critical role in regulating the HSC pool. Furthermore Opn is critical in trans-marrow migration and lodgement of HSC within the BM after transplantation. When added to in vitro HSC cultures, exogenous thrombin-cleaved Opn also inhibits cell proliferation and potently suppresses HSC differentiation. We have now demonstrated that this interaction occurs in an RGD-independent manner via the cryptic SVVYGLR epitope revealed on the N-terminal fragment of Opn following thrombin cleavage. This epitope has previously been shown to bind to α4β1 and α9β1. HSC are known to express α4β1, but we have now shown that within the HSC pool this occurs in a differential manner, mimicking that of CD38, with more committed CD34+CD38+ cord blood progenitors having the highest levels of expression. In addition, we have shown the previously unrecognised characteristic of human marrow and cord blood HSC, the expression of α9β1, which also occurs in a differential manner, but mimicking CD34. Expression of α9β1 is highest on cord blood CD34+CD38− cells, a population highly enriched for HSC. Using the synthetic SVVYGLR peptide in culture, we re-capitulated the thrombin-cleaved Opn induced suppression of HSC differentiation in a dose dependent manner. Antibody blocking experiments demonstrated that binding to this peptide was occurring through both α4β1 and α9β1. In contrast, suppression of HSC proliferation and differentiation did not occur through the upstream alternate α4β1 binding site. Furthermore, we have now demonstrated endogenous binding of Opn to α4β1 and α9β1 to cord blood HSC in vivo. Together, these data provide strong evidence that Opn is an important component of the HSC niche which acts as a physiological negative regulator. Furthermore, our studies identify the previously unrecognised characteristic of HSC, the expression of α9β1, which together with α4β1 provides two receptors on HSC with differing expression signatures and potentially a mechanism for fine tunning the physiological effects of Opn.

Further Preclinical Studies with APR-246, a Novel Anticancer Compound Currently in Clinical Trials for Hematological Malignancies and Prostate Cancer.

Blood ◽  
2009 ◽  
Vol 114 (22) ◽  
pp. 3773-3773
Author(s):  
Nina Mohell ◽  
Charlotta Liljebris ◽  
Jessica Alfredsson ◽  
Ylva Lindman ◽  
Maria Uustalu ◽  
...  
Keyword(s):  
Clinical Trials ◽  
Cancer Cells ◽  
Cell Lines ◽  
Cancer Cell ◽  
Ex Vivo ◽  
Cancer Cell Lines ◽  
Solid Cancer ◽  
Dependent Manner

Abstract Abstract 3773 Poster Board III-709 Introduction The tumor suppressor protein p53 induces cell cycle arrest and/or apoptosis in response to various forms of cellular stress, through transcriptional regulation of a large number of down stream target genes. p53 is frequently mutated in cancer, and cancer cells carrying defects in the p53 protein are often more resistant to conventional chemotherapy. Thus, restoration of the wild type function to mutant p53 appears to be a new attractive strategy for cancer therapy. APR-246 is a novel small molecule quinuclidinone compound that has been shown to reactivate non-functional p53 and induce apoptosis. Although the exact molecular mechanism remains to be determined, recent results suggest that an active metabolite of APR-246 alkylates thiol groups in the core domain of p53, which promotes correct folding of p53 and induces apoptosis (Lambert et al., Cancer Cell 15, 2009). Currently, APR-246 is in Phase I/IIa clinical trials for hematological malignancies and prostate cancer. In the present abstract results from in vitro, ex vivo and in vivo preclinical studies with APR-246 are presented. Results The lead compound of APR-246, PRIMA-1 (p53 reactivation and induction of massive apoptosis), was originally identified by a cellular screening of the NCI library for low molecular weight compounds (Bykov et al., Nat. Med., 8, 2002). Further development and optimization of PRIMA-1 led to the discovery of the structural analog APR-246 (PRIMA-1MET), with improved drug like and preclinical characteristics. In in vitro experiments APR-246 reduced cell viability (WST-1 assay) in a large number of human cancer cell lines with various p53 status, including several leukemia (CCRF-CEM, CEM/VM-1, KBM3), lymphoma (U-937 GTP, U-937-vcr), and myeloma (RPMI 8226/S, 8226/dox40, 8226/LR5) cell lines, as well as many solid cancer cell lines, including osteosarcoma (SaOS-2, SaOS-2-His273,U-2OS), prostate (PC3, PC3-His175, 22Rv1), breast (BT474, MCF-7, MDA-MB-231), lung (H1299, H1299-His175) and colon cancer (HT-29). In human osteosarcoma cell lines APR-246 reduced cell viability and induced apoptosis (FLICA caspase assay) in a concentration dependent manner being more potent in the p53 mutant (SaOS-2-His273) than in the parental p53 null (SaOS-2) cells. The IC50 values (WST-1 assay) were 14 ± 3 and 27 ± 5 μM, respectively (n=35). In in vivo subcutaneous xenograft studies in SCID (severe combined immunodeficiency) mice APR-246 reduced growth of p53 mutant SaOS-2-His273 cells in a dose-dependent manner, when injected i.v. twice daily with 20 -100 mg/kg (64 – 76% inhibition). An in vivo anticancer effect of APR-246 was also observed in hollow-fiber test with NMRI mice using the acute myeloid leukemia (AML) cell line MV-4-11. An ex vivo cytotoxic effect of APR-246 and/or its lead compound PRIMA-1 has also been shown in primary cells from AML and CLL (chronic lymphocytic leukemia) patients, harbouring both hemizygously deleted p53 as well as normal karyotype (Nahi et al., Br. J. Haematol., 127, 2004; Nahi et al., Br. J. Haematol., 132, 2005; Jonsson-Videsater et al., abstract at this meeting). APR-246 was also tested in a FMCA (fluorometric microculture assay) test using normal healthy lymphocytes (PBMC) and cancer lymphocytes (CLL). It was 4-8 fold more potent in killing cancer cells than normal cells, indicating a favorable therapeutic index. This is in contrast to conventional cytostatics that often show negative ratio in this test. Furthermore, when tested in a well-defined panel of 10 human cancer cell lines consisting of both hematological and solid cancer cell lines, the cytotoxicity profile/activity pattern of APR-246 differed from common chemotherapeutic drugs (correlation coefficient less than 0.4), suggesting a different mechanism of action. Conclusion In relevant in vitro, in vivo and ex vivo cancer models, APR-246 showed unique pharmacological properties in comparison with conventional cytostatics, by being effective also in cancer cells with p53 mutations and by demonstrating tumor specificity. Moreover, in experimental safety/toxicology models required to start clinical trials, APR-246 was non toxic at the predicted therapeutic plasma concentrations. Thus, APR-246 appears to be a promising novel anticancer compound that may specifically target cancer cells in patients with genetic abnormality associated with poor prognosis. Disclosures: Mohell: Aprea AB: Employment. Liljebris:Aprea AB: Employment. Alfredsson:Aprea AB: Employment. Lindman:Aprea AB: Employment. Uustalu:Aprea AB: Employment. Wiman:Aprea AB: Co-founder, shareholder, and member of the board. Uhlin:Aprea AB: Employment.

Critical role of SEMA5A expression in invasion and metastasis of ovarian cancer cell

2014 ◽  
Vol 2 (4) ◽  
pp. 247-259
Keyword(s):  
Ovarian Cancer ◽  
Cancer Cells ◽  
Cancer Cell ◽  
Ovarian Cancer Cell ◽  
Critical Role ◽  
Migration And Invasion ◽  
Ovarian Cancer Cells ◽  
Cancer Tissue ◽  
Invasion And Metastasis

Semaphorins are a large family of genes involved in the development and morphogenesis of the nervous system. SEMA5A has been reported as a bi-functional molecule, acting as both oncogene and tumor suppressor in different types of cancer. High expression levels of SEMA5A and its receptor, Plexin-B3, were associated with aggressiveness in pancreatic and prostate cancers. Our previous study in ovarian cancer metastasis indicates that FAK knock-down can suppress ovarian cancer cells migration and invasion. We hypothesized that SEMA5A expression promotes ovarian cancer invasion and metastasis. We investigated the expression of SEMA5A in patients with metastatic ovarian cancer (n = 43), localized tumor (n = 37) and normal ovarian tissue (n = 12) from non-malignant diseases as control with different histopathological characteristics. For Silencing of SEMA5A in vitro, we treated human ovarian cancer cells (OVCAR-3, A2780/CP70) with miR-27a and miR-27b. We observed significantly higher expression of SEMA5A protein (P= 0.001) in metastatic ovarian cancer tissue associated with poor overall survival outcomes compared to localized ovarian cancer and control. In vitro silencing of SEMA5A reduced migration and invasion of ovarian cancer cell. Our data offer opportunities for the therapeutic modulation and biomarker of metastatic ovarian cancer.

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