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Macrophages have plastic and diverse phenotypes and functions, and they play different roles in host defense, tissue homeostasis and repair, development, and various pathologic processes. Although the classically activated macrophage (M1) and alternatively activated macrophage (M2) phenotypes are widely accepted, most macrophages under physiologic and pathologic conditions are polarized to a continuum of states between the M1 and M2 extreme phenotype poles. In recent years, research on the regulatory mechanisms of M1 and M2 macrophages has made great progress, preliminarily elucidating the role of cellular metabolic reprogramming in macrophage polarization and the role of glycolytic enzymes in controlling inflammatory macrophages. The knowledge lays the foundation for elucidating the mechanisms in the regulation of macrophage functional phenotypes. Tumor-associated macrophages play important roles in the development of tumors. The macrophages in the microenvironment of hematologic malignancies have unique features, and a deep study on them will provide new thoughts and clues for clinical diagnosis and therapeutics.
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The tumors originate from transformation cells caused by gene mutations. These cells are frequently kept at dormant state or detected and cleared by the immune surveillance. The research data show that the hallmarks of tumors and aging share many similarities, which is the biological basis for tumors as aging-related diseases. With the increase of tumor initiation cells and the decline of immune function in the elderly, the morbidity and mortality of tumors steadily increase. The core mechanisms are inflammaging and immunosenescence in the elderly. This article reviews recent advances in the field of tumorigenesis, inflammaging and immunosenescence, which elucidates the hypothesis and possible mechanism that tumors are aging-related diseases.
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B-cell lymphomas are a group of highly heterogeneous malignancies. The phenotypes of different subtypes depend on the differentiation stage and genetic changes of B-cell, which reflects in the immunophenotype, karyotype and tumor microenvironment changes, especially the differences in the cellular composition of microenvironment. This article reviews the characteristics of B-cell lymphoma cells and the cellular composition of microenvironment, discusses the role of tumor microenvironment cells in the occurrence and development of B-cell lymphoma, which provides new ideas for clinical diagnosis and treatment.
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Human herpes virus (HHV) spreads widely in a latent-infected way. HHV is divided into 3 kinds and 8 types. Herpes simplex caused by HHV-1 and HHV-2, varicella-zoster caused by HHV-3 and Epstein-Barr virus (EBV) known as HHV-4 and recognized firstly as human tumor virus, are well known in the field of virology. With the application of hematopoietic stem cell transplantation , cytomegalovirus (HHV-5) and HHV-6 have gained an increasing attention. The biological characteristic of HHV is latent infection in a long time and HHV can be reactivated in some immunocompromised individuals. Clarification of latent infection mechanism will help provide targets for therapy and lay a foundation for clinical treatment. This paper summarizes the clinical significance of HHV infection. Taking the mechanism of EBV latent infection as an example, the pathway and significance as well as strategy of co-evolution of organism and virus will be discussed in order to provide clues for prevention and therapy.
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Half a century ago,it was confirmed that leukemia could be induced by retroviruses in some animals.There are numerous en-dogenous retroviruses in the human genome.However,retrovirus-related human adult T-cell leukemia is only endemic in some local areas. Recently,an extensive study on apolipoprotein B mRNA editing enzyme catalytic polypeptide 3(APOBEC3)family members has revealed the resistance mechanism in human to retrovirus-induced leukemia.The Epstein-Barr virus is widely spread in the human population and exists as a latent infection in the human body for a long time.It is closely associated with the occurrence and development of some lymphomas and solid tumors,indicating its tumorigenicity.The relationship between other viral infections and leukemia/lymphoma remains unclear. The interaction may be mediated by complex,multistep,and indirect networks,which need to be further illuminated.
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Human herpesvirus 6 (HHV-6) is recognized as a ubiquitous dsDNA virus in human with widespread cell tropism in vivo, which could induce lifelong latent infection and be reactivated in some immunocompromised individuals leading to serious diseases. With the increasing application of hematopoietic stem cell transplantation (HSCT), it is obvious that HHV-6 reactivation has a close relationship with several complications including encephalitis after transplantation. On the other hand, among about 1 % infected people, HHV-6 and subtelomeric region of cell chromosomes in the state of endogenous persistent infection play a part in activated virus infection. As the detection methods make a great progress in HHV-6 detection, clinical data reveals the relationship between HHV-6 reactivation and lots of chronic diseases, especially lymphoma, leukemia as well as some chronic hematopoietic and immunological diseases.
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Allee effect is a phenomenon in ecology characterized by a correlation between population size or density and the mean individual fitness of population or species.It is consistent with density dependent phenomenon in biomedical field.Recently,Allee effect has been studied by theoretical biologist in detail for oncology biological research.Leukemia cells,which reside in organic microenvironment,show an obvious Allee effect.The authors compared Allee effect with density dependent growth of leukemia cells based on their work experience and literature data.No principle distinction was found between these two terms.In this paper,Allee effect in leukemia cell culture and leukemia,especially in minimal residual disease,will be discussed in the view of ecology.The association between Allee effect and leukemogenesis and relapse dynamics will also be explored in the future research.
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Dormant follicular lymphoma, prostate carcinoma and breast carcinoma are frequently detected by autopsy of non-tumor patients. Dormancy of malignant cells in hematopoietic malignancies is associated with genesis, development and treatment of these diseases. Dormancy is the universally applied strategy by living organism during survival competition. As the in vivo neoplasm, tumor cells keep this property. Recently, much attention has been paid to the mechanisms of tumor dormancy. These studies not only have theoretical significance, provide new ways for the prevention and treatment of tumors, but also help the understanding of over-diagnosis, over-treatment and provide clues for precise medicine. This paper reviewed cellular mechanism of tumor cell dormancy,immunological and vascular regulation of dormant tumors. The clinical significance,application of these mechanisms and direction of further study, which will provide new clues for the treatment of hematopoietic malignancies, were also discussed.
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Cancer stem cells (CSCs) are units in cancer evolution.The elucidation the origin of CSCs has great significance on prevention and treatment of cancers.This paper discusses possible origins,genetic pathways and mechanisms of CSC on the basis of the literature and authors' research.Normal stem cells could be malignantly transformed to CSC through long term accumulation of gene mutations.Induction to pluripotent stem cells by reprogramming is a possible pathway for somatic cells to become CSCs.Dedifferentiation of cancer cells to CSCs is another pathway.Epithelial-mesenchymal transition (EMT),which is an important mechanism for cellular plasticity,plays important roles in cancer metastasis and stemness of cancer cells.Cell-fusion inducing EMT could be a mechanism for the genesis of CSCs.Infection of some virus is also related to the genesis of CSCs.The complexity of cancer biology was also discussed.
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Viral etiology of tumor has been studied for a century.Seven human tumor viruses were identified over the past half century.The complexity and regularity of the pathogenic mechanisms of human tumor viruses have been elucidated preliminarily.Human genome sequencing indicated that 8 % of human genes were composed of human endogenous retroviruses (HERVs).Owing to the findings that adult T-cell leukemia virus (HTLV) can cause human adult T-cell leukemia and animal exogenous and HERVs can induce tumors and malignant diseases,the relationship between HERVs and human tumors has attracted much attention receutly.Here this article discusses the association of the expression of HERVs with leukemia and solid tumors progression,which may be an important aspect of tumor virology.
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As novel organisms,tumors undergo microevolution in limited time and space in vivo.Due to genetic mutations and epigenetic mechanisms,tumor cell clones undergo linear or branching evolution.In most clinic patients,tumors develop through branching evolution pathways,causing tumor heterogeneity and affecting tumor progression.Microevolution is the biological basis for the refractoriness and recurrence of tumors and has been paid attention in research and clinic recently.In this paper,acute myeloid leukemia (AML) and myelodysplastic syndromes (MDS) are used as examples to demonstrate tumor microevolution and the concept of linear and branching evolution.Questions and perspective in the field of tumor microevolution research are also discussed.
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The disturbance of life rhythm exerts negative influence on modem life.The relationship between the disruption of circadian rhythms and tumor growth has attracted much attention.It has been studied in breast cancer and prostate cancer,and chronotherapeutics has been used for treatment of some cancers in clinic.Researchers have begun to investigate the association of circadian rhythms with leukemia/lymphoma outside China.The literatures were reviewed and the launch of research on this field was appealed.
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After near a century of research,the diverse and complicated relationship between viruses and tumors has been elucidated gradually.Last century it was demonstrated that some retroviruses and some herpes viruses could induce lymphoma and leukemia in some animals.However,it is more complicated in human.During the last two decades it has been confirmed that several types of hepatitis viruses could cause hepatocellular carcinoma and the relationship between human papillomaviruses and cervix carcinoma has been established.These viral vaccines became useful tools to prevent prevalence of these carcinomas.Because of the successful inoculation of live attenuated viral vaccines all around the world in recent 15 years,oncolytic virotherapy is revived,and provides a novel strategy for treatment of refractory tumors.
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Human herpesviruses (HHV) are widespread all over the world,and persist in human in latent infection.When reactivated,HHV plays an important role in the pathogenesis and development of tumor and other diseases.Much attention has been paid on EB virus which can cause different tumors and other diseases.Studies within this half century have elucidated the mechanism of oncogenesis of γ-HHV.Recently it was reported that other HHV may have oncomodulation functions.
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Objective To investigate the expression of FBXW7 during the development of Notch1induced murine leukemia.Methods Notch1 over-expressing murine model of T-cell acute lymphoblastic leukemia was used to study the expression of FBXW7 by real-time PCR methods.Bone marrow mononuclear cells (BMNC) were isolated on different days after transplantation and CD45.2+ GFP+ leukemia cells were sorted by flow cytometry at late stage.The expression changes of FBXW7 were tested by real-time PCR.Results The mouse bone marrow cells both from leukemia and control groups expressed FBXW7.Different expression patterns of FBXW7 were observed during the development of leukemia. The expression of FBXW7 was gradually increased in control group, whereas the expression level of FBXW7 in leukemia group was decreased steadily and reached one-sixth of that in control group on 12th day.Furthermore,lower expression level of FBXW7 was observed in CD45+.2 GFP+ leukemia cells.Conclusion Decreased expression of FBXW7 is observed in Notch1-induced mouse leukemia model,suggesting that the abnormal ubiquitin degradation pathway mediated by FBXW7 might contribute to the leukemogenesis in Notch1-induced murine leukemia model.
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Objective To investigate the anti-inflammatory/immune modulatory effects of high-expressing membrane bound M-CSF-hematopoietic malignant cells on macrophages. Methods After coculturing RAW264.7 and murine macrophage cell line with Namalwa-M, a cell line stably expressing mM-CSF, and companing with Nainalwa-V, a cell line stably transfected with the empty vector as the control, flow cytometry was used to detect the expression of the marker of alternatively activated macrophages, CD206, and intracellular expression of IL-10, IL-12, IL-6 and TNF-α to study the immunophenotype of RAW264.7; phagocytic assays to investigate their functional activity in vitro. Results RAW264.7 cocultured with Namalwa-M consistently showed high-level expression of CD206, which indicated activities of these macrophage cells were increased. Furthermore, these RAW264.7 expressing high levels of IL-10, TNF-a and low levels of IL-12, IL-6, as determined by intracellular staining were suggested that the phagocytic activity was increased. Functionally, RAW264.7 cocultured with Namalwa-M showed a higher level of phagocytic activity. Conclusion Macrophage generated in vitro after cocultured with mM-CSF-expressing hematopoietic malignant cell line could be transformed into abnormal macrophage with an immunophenotype defined as IL-10-high, IL-12-low, IL-6-low and TNF-α-high.
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Cell death as the partner of cell proliferation is one of the basic mechanism in cell biology. Recently, it became obscure since more and more patterns of cell death were reported. However, the classification of cell death, which was recommended by the Nomenclature Committee on Cell Death (NCCD) in 2009, clarified the criteria. The theme of the recommendation and recent data from the literature were discussed in this review. The significance of studies on cell death was discussed.
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Bidirectional signal transduction is a newly elucidated mechanism in intercellular communication. The bidirectional signal transduction mediated by the Eph-ephrin is an important representative in this field. The Eph family receptor tyrosine kinases and their membrane-bound ligands, the ephrins, play pivotal roles in the development of nervous system, angiogenesis, etc. The signal transduction into cells by Eph receptors is the forward signal, whereas the signal transduction by ephrins is the reverse signal. Based on their molecular structures, the ephrins can be divided into two subclasses, i.e. ephrinA and ephrinB. The ephrinBs are transmembrane proteins, which can activate FAK, JNK and Wnt signal transduction pathways through phosphotyrosine-dependent signaling and PDZ-binding motif-dependent signaling. The ephrinAs are glycosylphosphotidylinositol (GPI) anchored proteins, which can also mediate reverse signal transduction.
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<p><b>OBJECTIVE</b>To investigate the levels of IL-18 in the bone marrow of both normal subjects and patients with hematological diseases and to determine the possible significance of IL-18 in pathogenesis of some hematological malignancies.</p><p><b>METHODS</b>The IL-18 mRNA levels in the bone marrow of 140 patients with hematological diseases and 15 normal donors were determined by the semi-quantitative reverse transcriptase polymerase chain reaction (RT-PCR). Immunohistochemical method was used to detect IL-18 protein in 12 patients with acute myeloid leukemia (AML). The possible regulation of IL-18 for proliferation of some leukemia cells was investigated using antisense techniques.</p><p><b>RESULTS</b>IL-18 mRNA levels were obviously higher in the patients with leukemia or other malignant hematological diseases (OMHD) than in normal donors. However, no significant difference was found in the level of transcription between patients with iron deficiency anemia (IDA) and normal controls. Immunohistochemical method confirmed the presence of IL-18 protein in 10 out of 12 AML cases with positive transcription. By 3-(4,5-dimethylthiazol-2-yl)-2,5-diphenyl tetrazolium bromide (MTT) assay, IL-18 antisense oligodeoxynucleotides (ASON) clearly inhibited the growth of J6-1 and HL-60 cells (42% and 12% inhibited, respectively) in a dose-dependent manner.</p><p><b>CONCLUSIONS</b>IL-18 was detected at elevated levels in the bone marrow of patients with some hematological malignancies, and might be involved in the proliferation of certain leukemic cells in vivo through an autocrine mechanism.</p>