Mingshan Niu

MiR-150 impairs inflammatory cytokine production by targeting ARRB-2 after blocking CD28/B7 costimulatory pathway

MiR-150, a major modulator negatively regulating the development and differentiation of various immune cells, is widely involved in orchestrating inflammation. In transplantation immunity, miR-150 can effectively induce immune tolerance, although the underlying mechanisms have not been fully elucidated. In the current study, we found that miR-150 is elevated after blocking CD28/B7 co-stimulatory signaling pathway and impaired IL-2 production by targeting ARRB2. Further investigation suggested that miR-150 not only repressed the level of ARRB2/PDE4 directly but also prevented AKT/ARRB2/PDE4 trimer recruitment into the lipid raft by inhibiting the activities of PI3K and AKT through the cAMP-PKA-Csk signaling pathway. This leads to the interruption of cAMP degradation and subsequently results in inhibition of the NF-kB pathway and reduced production of both IL-2 and TNF. In conclusion, our study demonstrated that miR-150 can effectively prevent CD28/B7 co-stimulatory signaling transduction, decrease production of inflammatory cytokines, such as IL-2 and TNF, and elicit the induction of immune tolerance. Therefore, miR-150 could become a novel potential therapeutic target in transplantation immunology.

Plumbagin induces growth inhibition of human glioma cells by downregulating the expression and activity of FOXM1

Plumbagin, a natural quinonoid constituent isolated from the root of medicinal plant Plumbago zeylanica L, has exhibited anti-tumor and anti-proliferative activities in various tumor cell lines as well as in animal tumor models. However, its anticancer effects and the mechanisms underlying its suppression of glioma cell growth have not been elucidated. Oncogenic transcription factor Forkhead Box M1 (FOXM1) has garnered particular interest in recent years as a potential target for the prevention and/or therapeutic intervention in glioma, nevertheless, less information is currently available regarding FOXM1 inhibitor. Here, we reported that plumbagin could effectively inhibit cell proliferation, migration and invasion and induce apoptosis of glioma cells. Cell cycle assay showed that plumbagin induced G2/M arrest. Interestingly, we found that plumbagin decreased the expression of FOXM1 both at mRNA level and protein level. Plumbagin also inhibited the transactivation ability of FOXM1, resulting in down-regulating the expression of FOXM1 downstream target genes, such as cyclin D1, Cdc25B, survivin, and increasing the expression of p21CIP1 and p27KIP1. Most importantly, down-regulation of FOXM1 by siFOXM1 transfection enhanced plumbagin-induced change in viability. On the contrary, over-expression of FOXM1 by cDNA transfection reduced plumbagin-induced glioma cell growth inhibition. These results suggest that plumbagin exhibits its anticancer activity partially by inactivation of FOXM1 signaling pathway in glioma cells. Our findings indicate that plumbagin may be considered as a potential natural FOXM1 inhibitor, which could contribute to the development of new anticancer agent for therapy of gliomas.

Imbalanced expression of Bcl-xL and Bax in platelets treated with plasma from immune thrombocytopenia.

Immune thrombocytopenia is a heterogeneous autoimmune disease, characterized by accelerated platelet destruction and impaired platelet production. Bcl-xL and Bax play an opposite role in the regulation of apoptotic process with Bcl-xL for cell survival and Bax for cell apoptosis. Given the critical roles in the regulation of platelet apoptosis, whether Bcl-xL or Bax was involved in the pathogenesis of ITP remains unknown. The aim of this study is to evaluate the expression profile of Bcl-xL and Bax in platelets treated with ITP plasma. Normal washed platelets were treated with plasma from 20 active ITP patients or 10 age and gender-matched control to mimic the ITP in vivo environment. Mitochondrial depolarization, platelet apoptosis and activation were measured by flow cytometry. Expression of Bcl-xL, Bax and caspase-3 were also measured by quantitative real-time PCR and western blot. Our results demonstrated increased mitochondrial depolarization, platelet apoptosis and activation in platelets after treated with ITP plasma in comparison to control. In addition, decreased expression of Bcl-xL, increased expression of Bax and activity of caspase-3 were also observed. Furthermore, a negative correlation of Bcl-xL with Bax was found in platelets treated with ITP plasma. In conclusion, imbalanced expression of Bcl-xL and Bax might be associated with platelet apoptosis in ITP and therapeutically targeting them might be a novel approach in the treatment of ITP.

CRM1/XPO1 is associated with clinical outcome in glioma and represents a therapeutic target by perturbing multiple core pathways

BackgroundMalignant gliomas are associated with a high mortality rate, and effective treatment options are limited. Thus, the development of novel targeted treatments to battle this deadly disease is imperative.MethodsIn this study, we investigated the in vitro effects of the novel reversible chromosomal region maintenance 1 (CRM1) inhibitor S109 on cell proliferation in human gliomas. S109 was also evaluated in an intracranial glioblastoma xenograft model.ResultsWe found that high expression of CRM1 in glioma is a predictor of short overall survival and poor patient outcome. Our data demonstrate that S109 significantly inhibits the proliferation of human glioma cells by inducing cell cycle arrest at the G1 phase. Notably, we observed that high-grade glioma cells are more sensitive to S109 treatment compared with low-grade glioma cells. In an intracranial mouse model, S109 significantly prolonged the survival of tumor-bearing animals without causing any obvious toxicity. Mechanistically, S109 treatment simultaneously perturbed the three core pathways (the RTK/AKT/Foxos signaling pathway and the p53 and Rb1 tumor-suppressor pathways) implicated in human glioma cells by promoting the nuclear retention of multiple tumor-suppressor proteins.ConclusionsTaken together, our study highlights the potential role of CRM1 as an attractive molecular target for the treatment of human glioma and indicates that CRM1 inhibition by S109 might represent a novel treatment approach.

Piperlongumine is a novel nuclear export inhibitor with potent anticancer activity.

Piperlongumine is a natural compound recently identified to be toxic selectively to tumor cells in vitro and in vivo. However, the molecular mechanism underlying its anti-tumor action still remains unclear. In this report, we describe another novel mechanism by which piperlongumine mediates its anti-tumor effects. We found that piperlongumine is a novel nuclear export inhibitor. Piperlongumine could induce nuclear retention of tumor suppressor proteins and inhibit the interactions between CRM1 and these proteins. Piperlongumine could directly bind to the conserved Cys528 of CRM1 but not to a Cys528 mutant peptide. More importantly, cancer cells expressing mutant CRM1 (C528S) are resistant to piperlongumine, demonstrating the nuclear export inhibition via direct interaction with Cys528 of CRM1. The inhibition of nuclear export by piperlongumine may account for its therapeutic properties in cancer diseases. Our findings provide a good starting point for development of novel CRM1 inhibitors.

Piperlongumine selectively suppresses ABC-DLBCL through inhibition of NF-κB p65 subunit nuclear import

Constitutive NF-κB activation is required for survival of activated B cell-like subtype of diffuse large B cell lymphoma (ABC-DLBCL). However, current NF-κB targeting strategies lack cancer cell specificity. Here, we identified a novel inhibitor, piperlongumine, features direct binding to NF-κB p65 subunit and suppression of p65 nuclear import. This was accompanied by NF-κB reporter activity suppression and NF-κB target gene downregulation. Moreover, mutation of Cys(38) to Ser in p65 abolished this effect of piperlongumine on inhibition of p65 nuclear import. Furthermore, we show that piperlongumine selectively inhibited proliferation and induced apoptosis of ABC-DLBCL cells. Most notably, it has been reported that piperlongumine did not affect normal cells even at high doses and was nontoxic to animals. Hence, our current study provides new insight into piperlongumines mechanism of action and novel approach to ABC-DLBCL target therapy.

Alantolactone induces G1 phase arrest and apoptosis of multiple myeloma cells and overcomes bortezomib resistance

Abstract Several sesquiterpene lactones have been extracted and demonstrated to exert various pharmacological functions in a variety of cancers. Here, we investigated anti-tumor effect of alantolactone, an allergenic sesquiterpene lactone, on human multiple myeloma (MM) and showed alantolactone inhibited growth of MM cells, both in the presence or absence of bone marrow (BM)-derived stromal cells (HS-5), and subsequent G1 phase arrest, and apoptosis as demonstrated by increased Annexin-V/7-AAD binding, caspase-3 or caspase-9 activation and down-modulation of activation of extracellular signal-regulated kinases 1/2. In addition, alantolactone reduced the secretion of MM survival and growth-related cytokines, vascular endothelial growth factor, from MM cells or HS-5 cells, and inhibited cytokine-induced osteoclastogenesis. Notably, alantolactone also inhibited cell proliferation in bortezomib-resistant MM cells. Taken together, alantolactone exerted anti-tumor effect on MM by suppressing cell proliferation, triggering apoptosis, partly damaging the BM microenvironment and overcoming proteasome inhibitor resistance, suggesting alantolactone may be a novel therapeutic approach for the treatment of human MM.

MicroRNA‐181a, a potential diagnosis marker, alleviates acute graft versus host disease by regulating IFN‐γ production

Allogeneic hematopoietic stem cell transplantation (allo‐HSCT) is a valuable therapeutic strategy for a wide variety of diseases. Acute graft‐versus‐host disease (aGVHD) is a major complication in up to 75% of allo‐HSCT. The absence of a reliable predicative marker for aGVHD onset prevents preemptive treatment and impedes widespread and successful application of this therapy. In this study we found that after allo‐HSCT, the levels of miR‐181a were reduced significantly prior to the onset of aGVHD. More importantly, the degree of its reduction correlated with the severity of aGVHD. Mechanistically, miR‐181a affects the function of T lymphocytes by down‐regulating IFN‐γ in a dose‐dependent manner. Meanwhile, we confirmed that miR‐181a can effectively preserve the anti‐leukemic effect in vitro. Using a murine allo‐HSCT model, we demonstrated that murine miR‐181b, the human miR‐181a homolog, served as an effective predictor of aGVHD. Moreover, expression of this microRNA ameliorated the severity of aGVHD. Collectively, these results show that the level of miR‐181a may serve as a reliable marker for the diagnosis and prognosis the onset of aGVHD. Am. J. Hematol. 90:998–1007, 2015.

Expression and regulation of CacyBP/SIP in chronic lymphocytic leukemia cell balances of cell proliferation with apoptosis.

AbstractPurposeChronic lymphocytic leukemia (CLL) is the most common leukemia in Western countries, with incidence in Chinese populations also increasing. CLL involves an accumulation of abnormal B cells which result in dysregulation of cell proliferation and apoptosis rates. The calcyclin-binding protein/Siah-1-interacting protein (CacyBP/SIP) plays a pivotal role in tumorigenicity and cell apoptosis. Here, we investigated the function of CacyBP/SIP in CLL cell proliferation and apoptosis.MethodsCacyBP/SIP expression levels were measured in peripheral blood mononuclear cells from 23 Chinese CLL patients and three healthy donors by western blotting. Correlation analysis was performed to assess associations between CacyBP/SIP expression and clinical stage, chromosome abnormalities and zeta-chain-associated protein kinase 70 (ZAP-70) expression. We silenced CacyBP/SIP expression in MEC-1 cells using a lentivirus system and analyzed cell vitality, cell cycle and tumorigenicity. Apoptosis was also analyzed following the upregulation of CacyBP/SIP expression in MEC-1 cells.Results Downregulation of CacyBP/SIP expression in CLL patients was negatively correlated with CLL clinical stage, but not with patient sex, age, del(13q14) or del(17q-) presence, or ZAP-70 expression. CacyBP/SIP silencing significantly enhanced cell proliferation and tumorigenicity. CacyBP/SIP silencing promoted accumulation of cells in S phase by upregulation of β-catenin, cyclin D1 and cyclin E, and downregulation of p21. Moreover, CacyBP/SIP overexpression facilitated CLL apoptosis through the activation of pro-caspase-3.ConclusionCacyBP/SIP is a useful indicator of CLL disease processes and plays an important role in sustaining the balance of cell proliferation and apoptosis.

Smoothened is a poor prognosis factor and a potential therapeutic target in glioma

Malignant gliomas are associated with a high mortality rate. Thus, there is an urgent need for the development of novel targeted therapeutics. Aberrant Hedgehog signaling has been directly linked to glioma. GDC-0449 is a novel small molecule inhibitor of Hedgehog signaling that blocks the activity of smoothened (Smo). In this study, we evaluated the in vitro and in vivo effects of the smoothened inhibitor GDC-0449 on cell proliferation in human gliomas. We found that high expression of smoothened in glioma is a predictor of short overall survival and poor patient outcome. Our data suggest that GDC-0449 significantly inhibits the proliferation of glioma cells by inducing cell cycle arrest at the G1 phase. Our results demonstrate that GDC-0449 can effectively inhibit the migration and invasion of glioma cells. Furthermore, GDC-0449 treatment significantly suppressed glioma cell xenograft tumorigenesis. Mechanistically, GDC-0449 treatment markedly decreases the expression levels of key Hedgehog pathway component genes (Shh, Patched-1, Patched-2, smoothened, Gli1 and Gli2). These results indicate that GDC-0449 works through targeting the Hedgehog pathway. Taken together, our study suggests that smoothened could be used as a prognostic marker and molecular therapeutic target for glioma.