Pulsatilla saponin A Inhibits Proliferation and Induces Apoptosis in Diffuse Large Bcell Lymphoma Cells through the JAK2/STAT3 Signaling Pathway.

OBJECTIVES: This study aimed to investigate the performance of Pulsatilla saponin A (PsA) in diffuse large B-cell lymphoma (DLBCL) cells. METHODS: Proliferation, ELISA, apoptosis, cell cycle analysis, and assays were carried out to detect the growth and apoptosis in DLBCL cells. Western blotting was used to identify the change in the protein. RESULTS: In cell assays, PsA significantly inhibited the growth and apoptosis in DLBCL cells. The IL-10 and TNF-α of OCI-LY10 and U2932 cells were reduced after 24 h PsA treatment. Bax, cleaved PARP, and cleaved Caspase-3 were increased, while Bcl-2 and C-Myc decreased after PsA treatment. IL-10 may regulate the expression of C-Myc protein in cells by activating the JAK2/STAT3 signaling pathway. PsA can inhibit the overexpression of p-JAK2 and p- STAT3 signaling pathways induced by IL-10 stimulants. The proliferation and apoptosis induced by PsA were confirmed in DLBCL cells. CONCLUSION: Our findings revealed that PsA may exert its antitumor effect by causing G1 arrest and apoptosis in DLBCL cells. The mechanism of PsA regulating apoptosis in DLBCL cells is probably through the JAK2/STAT3 signaling pathway in vitro.

[Establishment of a Patient-Derived T-Cell Acute Lymphoblastic Leukemia Xenograft Model in Novel Immunodeficient NCG Mice].

OBJECTIVE: The leukemia cells from patients with T-cell acute lymphoblastic leukemia (T-ALL) were inoculated into NCG mice to establish a stable human T-ALL leukemia animal model. METHODS: Leukemia cells from bone marrow of newly diagnosed T-ALL patients were isolated, and the leukemia cells were inoculated into NCG mice via tail vein. The proportion of hCD45 positive cells in peripheral blood of the mice was detected regularly by flow cytometry, and the infiltration of leukemia cells in bone marrow, liver, spleen and other organs of the mice was detected by pathology and immunohistochemistry. After the first generation mice model was successfully established, the spleen cells from the first generation mice were inoculated into the second generation mice, and after the second generation mice model was successfully established, the spleen cells from the second generation mice were further inoculated into the third generation mice, and the growth of leukemia cells in peripheral blood of the mice in each group was monitored by regular flow cytometry to evaluate the stability of this T-ALL leukemia animal model. RESULTS: On the 10th day after inoculation, hCD45+ leukemia cells could be successfully detected in the peripheral blood of the first generation mice, and the proportion of these cells was gradually increased. On average, the mice appeared listless 6 or 7 weeks after inoculation, and a large number of T lymphocyte leukemia cells were found in the peripheral blood and bone marrow smear of the mice. The spleen of the mice was obviously enlarged, and immunohistochemical examination showed that hCD3+ leukemia cells infiltrated into bone marrow, liver and spleen extensively. The second and third generation mice could stably develop leukemia, and the average survival time was 4-5 weeks. CONCLUSION: Inoculating leukemia cells from bone marrow of patients with T-ALL into NCG mice via tail vein can successfully construct a patient-derived tumor xenografts (PDTX) model.

[Effect of Celastrol Based on IRAK4/ERK/p38 Signaling Pathway on Proliferation and Apoptosis of Multiple Myeloma Cells].

OBJECTIVE: To investigate the effect of celastrol on the proliferation and apoptosis of human multiple myeloma (MM) cell lines, reveal the relationship between IRAK4/ERK/p38 signaling pathway and celastrol regulating the proliferation and apoptosis of H929 and ARP-1 cells, and explore whether celastrol combined with bortezomib has synergistic effect. METHODS: CCK-8 method was used to detect the viability of MM cell lines H929 and ARP-1 treated by different concentrations of celastrol, bortezomib, and their combination, and the synergistic effect was determined by Kim's formula. The apoptosis rate of H929 cells and necrosis rate of ARP-1 were detected by Annexin V/PI method. The expression of key proteins and apoptosis proteins in IRAK4/ERK/p38 signaling pathway were detected by Western blot. RESULTS: Celastrol could significantly inhibit the proliferation of H929 and ARP-1 cells (r=0.9018, r=0.9244) and induce apoptosis in a time-dependent manner. Compared with the control group, celastrol could significantly up-regulate the expression of PARP and cleaved caspase-3 while down-regulate the expression of p-IRAK4, p-ERK, and p-p38 in H929 and ARP-1 cells. Celastrol and bortezomib alone inhibited the proliferation of H929 and ARP-1 cells. Compared with celastrol and bortezomib alone, their combination had lower cell survival rate and higher apoptosis rate (P<0.05). CONCLUSION: Celastrol can inhibit the proliferation and promote the apoptosis of H929 and ARP-1 cells, which may be related to inhibiting the phosphorylation of IRAK4 and blocking the activation of IRAK4/ERK/p38 signaling pathway. Celastrol combined with bortezomib has synergistic effect, which can more effectively inhibit the proliferation and induce apoptosis of H929 and ARP-1 cells.

[Analysis of Serum Metabonomics in Patients with Multiple Myeloma Based on Liquid Chromatography-Mass Spectrometry].

OBJECTIVE: To observe the changes of serum metabolites in patients with multiple myeloma (MM) by metabonomics, and explore the potential biomarkers for diagnosis, prognosis, and progression of MM. METHODS: Serum samples were collected from 26 patients with MM and 50 healthy controls. The data detected by liquid chromatography-mass spectrometry (LC-MS) was input into SIMCA-14.0 software for multivariate statistical analysis. Principal component analysis (PCA), partial least squares discriminant analysis (PLS-DA), and orthogonal partial least squares discriminant analysis (OPLS-DA) were used to analyze the changes of metabolites. RESULTS: The metabolic change of uric acid and trans-vaccenic acid in serum samples of MM patients was 9.39 times and 2.77 times of these in healthy people, respectively, which were significantly higher than those of healthy people, and the difference was statistically significant(P<0.01). CONCLUSION: Uric acid and trans-vaccenic acid are expected to be important metabolic indicators for the diagnosis, prognosis, and efficacy evaluation of MM, thus providing some clues for the pathogenesis of MM.

Philadelphia chromosome-positive acute lymphoblastic leukemia: a case report.

Prognosis of patients with Philadelphia-positive acute lymphoblastic leukemia (Ph-ALL) relapsing after allogeneic hematopoietic stem cell transplantation (HSCT) is extremely poor. Therefore, effective alternative therapeutic measures are urgently needed. Recently, the use of antigen receptor-modified T cells holds great promise for relapsed and refractory ALL treatment. Prior to chimeric antigen receptor T-cell (CAR-T) infusion conditioning chemotherapy is used routinely to establish a favorable in vivo environment for CAR-T expansion, which has mostly involved fludarabine and cyclophosphamide. We report on a patient presented with extreme fatigue and anemia and was diagnosed with relapsed and refractory acute lymphoblastic leukemia (ALL) harbored T315I-BCR-ABL mutation, who had undergone allogeneic HSCT and multiple reinducing chemotherapy, but achieved complete hematologic remission (CHR) with CAR -T infusion as a later salvage treatment. Prior to CAR-T infusion there was no conditioning chemotherapy, but a bone marrow suppression period induced by ponatinib. CAR-T cell infusion was well tolerated and the patient achieved a CHR and maintained it for three months. At present, there is no relevant report on the use of tyrosine kinase inhibitors (TKI) as preconditioning protocols before CAR-T cells infusion. Our case indicated ponatinib not only reduces tumor burden but may also serve as a conditioning regimen for CAR-T therapy in the treatment of relapsed and refractory Ph-ALL.

Tenacigenin B Has Anti-Tumor Effect in Lymphoma by In Vitro and In Vivo Study.

BACKGROUND The aim of this study was to examine the effects and mechanisms of tenacigenin B in lymphoma treatment by in vitro and in vivo experiment. MATERIAL AND METHODS Raji cells were treated by difference methods. Measuring the cell proliferation of difference groups was done by MTT assay; cell apoptosis and cell cycle of difference groups were evaluated by flow cytometer; relative mRNA expression was evaluated by real-time polymerase chain reaction (RT-PCR), and relative protein expressions were measured by western blot assay in an in vitro study. In an in vivo study, we used a nude mice model to explore the anti-tumor effects and mechanism of tenacigenin B. Cell apoptosis was measured by TUNEL assay; relative protein expressions were evaluated by immunohistochemistry assay, and relative mRNA expression was evaluated by RT-PCR. In addition, the blood components of difference groups were measured. RESULTS Compared with the Normal control group, the cell proliferation rate was significantly downregulated, with cell apoptosis significantly increasing with G1 phase in the Drug group and the si-Aurora-A group (P<0.05, respectively). The PTEN, PI3K, AKT, P53, and P21 mRNA and protein expressions of the Drug group, the si-Aurora-A group, and the si-Aurora-A+Drug group were significantly different (P<0.01, respectively), The tumor volume and weight of the Drug group, the si-Aurora-A group, and the si-Aurora-A+Drug group were significantly suppressed compared with the Normal group (P<0.01, respectively). The positive apoptosis cell number in the Drug group, the si-Aurora-A group, and si-Aurora-A+Drug group were increased compared with that of Normal group (P<0.01, respectively). CONCLUSIONS Tenacigenin B had anti-tumor effects on lymphoma via regulation of Aurora-A in vitro and in vivo.

Screening and predication on tumor neoantigen for primary plasma cell leukemia / 中国肿瘤生物治疗杂志

@#Objective:To investigate the tumor-specific neoantigen for primary plasma cell leukemia (PCL) using gene sequencing technology combined with bioinformatic analysis. Methods: Peripheral blood samples of one patient with primary PCL during relapse and remission periods were collected. HLA molecular typing was performed using polymerase chain reaction with sequencing-based typing; whole-exome and transcriptome were sequenced by next-generation sequencing method; and bioinformatics software NetMHCpan was used to predict neoantigens. Results: Six tumor-specific missense mutations were found in the patient's peripheral blood during relapse period, located in genes FRG1, MLL3, SVIL, MYOM1, ZDHHC11 and RFPL4A.Considering patient's HLA sub-types, 43 neoantigens were predicted via bioinformatics. Considering that FRG1 and MLL3 had relatively high gene expression levels, 20 neoantigens derived from mutations of the two genes were preferentially selected, among which four neoantigens had high affinity with the patient's HLA molecules and thus had potential clinical application value. Conclusion: The study has completed a tumor neoantigen screen and prediction for primary PCL. This practice demonstrates that predicting neoantigen based on tumor-specific somatic mutation is feasible for primary PCL.

In vitro construction and amplification and primary functional analysis of antiCD19 chimeric antigen receptor(CD19-CAR) modifiedTcells / 中国肿瘤生物治疗杂志

@#[Abstract] Objective: To establish a chimeric antigen receptor（CAR）modified T cells specifically targeting CD19 molecule (CD19CAR-T cells) and to testify their in vitro killing effect on target cells. Methods: CD19-CAR fragments yielded by PCR were constructed into pCDH-GFP lentiviral vectors by molecular cloning technology. The packaged lentiviral particles were transducted into CD3+ T cells of donors. Transduction efficiency was measured by flow cytometry and PCR. The in vitro cytotoxicity of obtained CD19CAR-T cells against CD19+ Ramos cells was tested by 7-AAD staining. Results: The amplification folds of CD3+ T cells increased to (78.8± 23.2) folds after in vitro culture for 10 days, and about (58.3±5.4)% cells expressing GFP.About (57.4±9.3)% CD19+Ramos cells were specifically killed by the CD19-CAR-T cells in vitro at the E∶T ratio of 5∶1. Conclusion: This study successfully established an effective method for constructing and amplifying CD19-CAR-T cells in vitro, which showed profound efficiency and specific cytotoxity against CD19+ Ramos cells.And this report might provide an experimental evidence for clinical treatment of CD19+ B cell neoplasmas.

NF-kappa B modulation is involved in celastrol induced human multiple myeloma cell apoptosis.

Celastrol is an active compound extracted from the root bark of the traditional Chinese medicine Tripterygium wilfordii Hook F. To investigate the effect of celastrol on human multiple myeloma cell cycle arrest and apoptosis and explore its molecular mechanism of action. The activity of celastrol on LP-1 cell proliferation was detected by WST-8 assay. The celastrol-induced cell cycle arrest was analyzed by flow cytometry after propidium iodide staining. Nuclear translocation of the nuclear factor kappa B (NF-κB) was observed by fluorescence microscope. Celastrol inhibited cell proliferation of LP-1 myeloma cell in a dose-dependent manner with IC50 values of 0.8817 µM, which was mediated through G1 cell cycle arrest and p27 induction. Celastrol induced apoptosis in LP-1 and RPMI 8226 myeloma cells in a time and dose dependent manner, and it involved Caspase-3 activation and NF-κB pathway. Celastrol down-modulated antiapoptotic proteins including Bcl-2 and survivin expression. The expression of NF-κB and IKKa were decreased after celastrol treatment. Celastrol effectively blocked the nuclear translocation of the p65 subunit and induced human multiple myeloma cell cycle arrest and apoptosis by p27 upregulation and NF-kB modulation. It has been demonstrated that the effect of celastrol on NF-kB was HO-1-independent by using zinc protoporphyrin-9 (ZnPPIX), a selective heme oxygenase inhibitor. From the results, it could be inferred that celastrol may be used as a NF-kB inhibitor to inhibit myeloma cell proliferation.

Celastrol inhibits lipopolysaccharide-induced angiogenesis by suppressing TLR4-triggered nuclear factor-kappa B activation.

Celastrol is an active compound extracted from the root bark of the traditional Chinese medicine Tripterygium wilfordii Hook F. In this study, we investigated the effect of celastrol on lipopolysaccharide (LPS)-activated LP-1 human multiple myeloma cell-induced angiogenesis, and identified its molecular mechanism of action. Migration of human umbilical vein endothelial cells (HUVECs) was tested using a wound-healing assay. HUVEC invasion was assayed using a Transwell chamber. Cell surface expression of Toll-like receptor 4 (TLR4) was analyzed by flow cytometry. Angiogenic factor vascular endothelial growth factor (VEGF) level was quantified by LUMINEX and protein expression was analyzed by Western blot. Translocation of nuclear factor-kappa B (NF-κB) was observed by fluorescence microscopy. Celastrol inhibited LPS-stimulated LP-1 human multiple myeloma-induced HUVEC migration and invasion in a concentration-dependent manner. Wound diameters increased by 72.9, 165.4 and 246.2% at 0.025, 0.05 and 0.1 µM, respectively, compared to LPS alone. A 45-74% inhibition of LPS-dependent cell invasion was achieved in the presence of 0.025-0.1 µM celastrol. Celastrol significantly downregulated LPS-induced TLR4 expression and inhibited LPS-induced VEGF secretion in LP-1 cells. VEGF levels decreased by 64.8, 84.4 and 92.9% after coexposure to celastrol at 0.025, 0.05 and 0.1 µM, respectively, compared to LPS alone. Celastrol also inhibited the IκB kinase (IKK)/NF-κB pathway induced by LPS. Protein levels of NF-κB p65, IKKα and IκB-α decreased in a dose-dependent manner after coexposure to celastrol. Celastrol also blocked nuclear translocation of the p65 subunit. These results suggest that celastrol inhibits LPS-induced angiogenesis by suppressing TLR4-triggered NF-κB activation.

A case report of a 33-year chronic phase survivor of chronic myeloid leukemia.

Here, we report a Philadelphia chromosome-positive chronic myeloid leukemia case with the longest chronic phase and overall survival to our knowledge ever reported in the medical literature. During the 33-year chronic phase, he was asymptomatic without any treatment and had normal blood cell values. BCR-ABL silencing might be referred to the uncommon long-term survivor.

[Clinical and biological features in refractory anemia with ringed sideroblasts with fluctuant platelet counts].

The objective of this study was to explore the differences between refractory anemia with ringed sideroblast (RARS) and RARS associated with marked thrombocytosis (RARS-T) in the clinical, biological features and prognosis. The morphological changes of cells were observed by bone marrow smear and biopsy. Immunologic phenotype was analyzed by flow cytometry, and chromosome was examined by conventional chromosomal analysis. JAK2 V617F and MPL W515L mutations were screened by allele-specific polymerase chain reaction (AS-PCR) and sequence analysis. The results showed that this case was clinically diagnosed as RARS with thrombophilia, the level of serum potassium was positively related with platelet counts. When platelets increased, the clusters of atypical giant platelets and megakaryocytes were observed in peripheral blood and bone marrow examined by bone marrow smear and bone marrow biopsy respectively, JAK2 V617F and MPL W515L mutations were negative. It is concluded that RARS may transform into RARS-T accompanied with megakaryocyte proliferation, large atypical platelets and negative JAK2 V617F. Preventing thrombophilia and monitoring relative gene mutations are necessary when atypical giant platelets and fluctuant platelet counts occurred in process of RARS with tendency to RARS-T.