搜索结果: 'methocult media formulations for mouse hematopoietic cells serum containing'

BackgroundChronic ischemic limb disease often leads to amputation,which remains a significant clinical problem. Smooth-muscle cells (SMCs) are crucially involved in the development and progression of many cardiovascular diseases,but studies with primary human SMCs have been limited by a lack of availability. Here,we evaluated the efficiency of two novel protocols for differentiating human induced-pluripotent stem cells (hiPSCs) into SMCs and assessed their potency for the treatment of ischemic limb disease.MethodshiPSCs were differentiated into SMCs via a conventional two-dimensional (2D) protocol that was conducted entirely with cell monolayers,or via two protocols that consisted of an initial five-day three-dimensional (3D) spheroid phase followed by a six-day 2D monolayer phase (3D?+?2D differentiation). The 3D phases were conducted in shaker flasks on an orbital shaker (the 3D?+?2D shaker protocol) or in a PBS bioreactor (the 3D?+?2D bioreactor protocol). Differentiation efficiency was evaluated via the expression of SMC markers (smooth-muscle actin [SMA],smooth muscle protein 22 [SM22],and Calponin-1),and the biological activity of the differentiated hiPSC-SMCs was evaluated via in-vitro assessments of migration (scratch assay),contraction in response to the treatment with a prostaglandin H2 analog (U46619),and tube formation on Geltrex,as well as in-vivo measurements of perfusion (fluorescence angiography) and vessel density in the limbs of mice that were treated with hiPSC-SMCs after experimentally induced hind-limb ischemia (HLI).ResultsBoth 3D?+?2D protocols yielded?>?5.6?×?107 hiPSC-SMCs/differentiation,which was?~?nine-fold more than that produced via 2D differentiation,and flow cytometry analyses confirmed that?>?98% of the 3D?+?2D-differentiated hiPSC-SMCs expressed SMA,?>?81% expressed SM22,and?>?89% expressed Calponin-1. hiPSC-SMCs obtained via the 3D?+?2D shaker protocol also displayed typical SMC-like migratory,contraction,and tube-formation activity in-vitro and significantly improved measurements of perfusion,vessel density,and SMA-positive arterial density in the ischemic limb of mouse HLI model.ConclusionsOur dynamic 3D?+?2D protocols produced an exceptionally high yield of hiPSC-SMCs. Transplantation of these hiPSC-SMCs results in significantly improved recovery of ischemic limb after ischemic injury in mice. View Publication

Circulating tumor cell (CTC) detection in hepatocellular carcinoma (HCC) is limited not only by the rarity of CTCs but also by a heavy reliance on cell surface markers such as EpCAM,which are variably expressed or lost during tumor progression. Detecting intracellular markers,such as cytokeratin offers an important complementary and comprehensive strategy but remains technically limited in flow cytometry due to the need for fixation and permeabilization,which often lead to cell loss and surface epitope damage. In this study,we systematically evaluated the feasibility of using fixed samples for flow cytometry,using HepG2 cells,PBMCs,and CTCs from patients with HCC. Our results demonstrate that fixation enabled intracellular staining without compromising cell surface marker detection,even after short-term storage at 4 °C and long-term storage at -80 °C. Fixed samples,particularly fixed unfrozen,exhibited comparable staining performance to fresh samples with only a 7–10% reduction in cell recovery. Clinical validation in HCC patients confirmed successful CTC detection,and tumor-specific CTNNB1 mutations were identified in CTC-derived DNA but not in matched plasma cfDNA. These findings support fixed CTC sample workflows as a reliable and practical approach for CTC analysis in HCC. View Publication

AHI-1 is an oncogene often targeted by provirus insertional mutagenesis in murine leukemias and lymphomas. Aberrant expression of human AHI-1 occurs in cutaneous T-cell lymphoma (CTCL) cells and in CD4(+)CD7(-) Sezary cells from patients with Sezary syndrome. Stable knockdown of AHI-1 using retroviral-mediated RNA interference in CTCL cells inhibits their transforming activity in vitro and in vivo. To identify genes involved in AHI-1-mediated transformation,microarray analysis was performed to identify differentially expressed genes in AHI-1-suppressed CTCL cells. Fifteen up-regulated and 6 down-regulated genes were identified and confirmed by quantitative reverse transcription-polymerase chain reaction. Seven were further confirmed in a microarray analysis of CD4(+)CD7(-) Sezary cells from Sezary syndrome patients. HCK and BIN1 emerged as new candidate cooperative genes,with differential protein expression,which correlates with observed transcript changes. Interestingly,changes in HCK phosphorylation and biologic response to its inhibitor,dasatinib,were observed in AHI-1-suppressed or -overexpressed cells. The tumor suppressor BIN1 physically interacts with MYC in CTCL cells,which also exhibit differential MYC protein expression. In addition,aberrant expression of alternative splicing forms of BIN1 was observed in primary and transformed CTCL cells. These findings indicate that HCK and BIN1 may play critical roles in AHI-1-mediated leukemic transformation of human CTCL cells. View Publication

Many studies have demonstrated a role for netrin-1-deleted in colorectal cancer (DCC) interactions in both axon guidance and neuronal migration. Neogenin,a member of the DCC receptor family,has recently been shown to be a chemorepulsive axon guidance receptor for the repulsive guidance molecule (RGM) family of guidance cues [Rajagopalan S,Deitinghoff L,Davis D,Conrad S,Skutella T,Chedotal A,Mueller B,Strittmatter S (2004) Neogenin mediates the action of repulsive guidance molecule. Nat Cell Biol 6:755-762]. Here we show that neogenin is present on neural progenitors,including neurogenic radial glia,in the embryonic mouse forebrain suggesting that neogenin expression is a hallmark of neural progenitor populations. Neogenin-positive progenitors were isolated from embryonic day 14.5 forebrain using flow cytometry and cultured as neurospheres. Neogenin-positive progenitors gave rise to neurospheres displaying a high proliferative and neurogenic potential. In contrast,neogenin-negative forebrain cells did not produce long-term neurosphere cultures and did not possess a significant neurogenic potential. These observations argue strongly for a role for neogenin in neural progenitor biology. In addition,we also observed neogenin on parvalbumin- and calbindin-positive interneuron neuroblasts that were migrating through the medial and lateral ganglionic eminences,suggesting a role for neogenin in tangential migration. Therefore,neogenin may be a multi-functional receptor regulating both progenitor activity and neuroblast migration in the embryonic forebrain. View Publication

Regulatory T cells (Tregs) are capable of inhibiting the proliferation,activation and function of T cells and play an important role in impeding the immune response to cancer. In chronic lymphocytic leukemia (CLL) a dysfunctional immune response and elevated percentage of effector-like phenotype Tregs have been described. In this study,using the Eµ-TCL1 mouse model of CLL,we evaluated the changes in the Tregs phenotype and their expansion at different stages of leukemia progression. Importantly,we show that Tregs depletion in DEREG mice triggered the expansion of new anti-leukemic cytotoxic T cell clones leading to leukemia eradication. In TCL1 leukemia-bearing mice we identified and characterized a specific Tregs subpopulation,the phenotype of which suggests its role in the formation of an immunosuppressive microenvironment,supportive for leukemia survival and proliferation. This observation was also confirmed by the gene expression profile analysis of these TCL1-specific Tregs. The obtained data on Tregs are consistent with those described so far,however,above all show that the changes in the Tregs phenotype described in CLL result from the formation of a specific,described in this study Tregs subpopulation. In addition,functional tests revealed the ability of Tregs to inhibit T cells that recognize model antigens expressed by leukemic cells. Moreover,inhibition of Tregs with a MALT1 inhibitor provided a therapeutic benefit,both as monotherapy and also when combined with an immune checkpoint inhibitor. Altogether,activation of Tregs appears to be crucial for CLL progression. View Publication

Natural killer (NK) cells are characterized by their ability to mediate spontaneous cytotoxicity against susceptible tumor cells and infected cells. They differentiate from hematopoietic progenitor cells. Patients with X-linked severe combined immunodeficiency (SCID X1) carry mutations in the gamma c cytokine receptor gene that result in lack of both T and NK cells. To assess the role of interleukin-2 (IL-2),IL-7,and IL-15 cytokines,which share gamma c receptor subunit,in NK cell differentiation,we have studied NK cell differentiation from cord blood CD34 (+) cells in the presence of either stem cell factor (SCF),IL-2,and IL-7 or SCF and IL-15. The former cytokine combination efficiently induced CD34 (+) CD7 (+) cord blood cells to proliferate and mature into NK cells,while the latter was also able to induce NK cell differentiation from more immature CD34 (+) CD7 (-) cord blood cells. NK cells expressed CD56 and efficiently killed K562 target cells. These results show that IL-15 could play an important role in the maturation of NK cell from cord blood progenitors. Following retroviral-mediated gene transfer of gamma c into SCID X1 bone marrow progenitors,it was possible to reproduce a similar pattern of NK cell differentiation in two SCID-X1 patients with SCF + IL-2 + IL-7 and more efficiently in one of them with SCF + IL-15. These results strongly suggest that the gamma c chain transduces major signal(s) involved in NK cell differentiation from hematopoietic progenitor cells and that IL-15 interaction with gamma c is involved in this process at an earlier step than IL-2/IL-7 interactions of gamma c are. It also shows that gene transfer into hematopoietic progenitor cells could potentially restore NK cell differentiation in SCID X1 patients. View Publication

PURPOSE: Circulating cell-free DNA in the blood of cancer patients harbors tumor-specific aberrations. Here,we investigated whether this DNA might also reflect the presence of circulating tumor cells (CTC). EXPERIMENTAL DESIGN: To identify the source of cell-free DNA in blood,plasma derived from 81 patients with prostate cancer was examined for CTCs and cell-free DNA. An epithelial immunospot assay was applied for detection of CTCs,and a PCR-based fluorescence microsatellite analysis with a panel of 14 polymorphic markers was used for detection of allelic imbalances (AI). RESULTS: The plasma DNA levels significantly correlated with the diagnosis subgroups of localized (stage M0,n = 69) and metastasized prostate cancer (stage M1,n = 12; P = 0.03) and with the tumor stage of these patients (P textless 0.005). AI was found on cell-free DNA in plasma from 45.0% and 58.5% of M0 and M1 patients,respectively. Detection of CTCs showed that 71.0% or 92.0% of the M0 and M1 patients harbored 1 to 40 CTCs in their blood,respectively. The occurrence of CTCs correlated with tumor stage (P textless 0.03) and increasing Gleason scores (P = 0.04). Notably,significant associations of the number of CTCs with the AI frequencies at the markers D8S137 (P = 0.03),D9S171 (P = 0.04),and D17S855 (P = 0.02) encoding the cytoskeletal protein dematin,the inhibitor of the cyclin-dependent kinase CDKN2/p16 and BRCA1,respectively,were observed. CONCLUSIONS: These findings show,for the first time,a relationship between the occurrence of CTCs and circulating tumor-associated DNA in blood,which,therefore,might become a valuable new source for monitoring metastatic progression in cancer patients. View Publication

BACKGROUND: Malignant melanoma is an exceptionally aggressive,drug-resistant and heterogeneous cancer. Recently it has been shown that melanoma cells with high clonogenic and tumourigenic abilities are common,but markers distinguishing such cells from cells lacking these abilities have not been identified. There is therefore no definite evidence that an exclusive cell subpopulation,i.e. cancer stem cells (CSC),exists in malignant melanoma. Rather,it is suggested that multiple cell populations are implicated in initiation and progression of the disease,making it of importance to identify subpopulations with elevated aggressive properties. METHODS AND FINDINGS: In several other cancer forms,Aldehyde Dehydrogenase (ALDH),which plays a role in stem cell biology and resistance,is a valuable functional marker for identification of cells that show enhanced aggressiveness and drug-resistance. Furthermore,the presence of ALDH(+) cells is linked to poor clinical prognosis in these cancers. By analyzing cell cultures,xenografts and patient biopsies,we showed that aggressive melanoma harboured a large,distinguishable ALDH(+) subpopulation. In vivo,ALDH(+) cells gave rise to ALDH(-) cells,while the opposite conversion was rare,indicating a higher abilities of ALDH(+) cells to reestablish tumour heterogeneity with respect to the ALDH phenotype. However,both ALDH(+) and ALDH(-) cells demonstrated similarly high abilities for clone formation in vitro and tumour initiation in vivo. Furthermore,both subpopulations showed similar sensitivity to the anti-melanoma drugs,dacarbazine and lexatumumab. CONCLUSIONS: These findings suggest that ALDH does not distinguish tumour-initiating and/or therapy-resistant cells,implying that the ALDH phenotype is not associated with more-aggressive subpopulations in malignant melanoma,and arguing against ALDH as a universal" marker. Besides� View Publication

Despite the high incidence of trophoblast-related diseases,the molecular mechanism of inadequate early trophoblast development is still unclear due to the lack of an appropriate cellular model in vitro. In the present study,we reprogrammed the amniotic cells to be induced pluripotent stem cells (iPSCs) via a non-virus and non-integrated method and subsequently differentiated them into trophoblast-like cells by a modified BMP4 strategy in E6 medium. Compared with the previously studied trophoblast-like cells from ESCs,the iPSCs derived trophoblast-like cells behave similarly in terms of gene expression profiles and biofunctions. Also we confirmed the differentiating tendency from iPSCs to be syncytiotrophoblasts-like cells might be caused by inappropriate differentiating oxygen condition. Additionally,we preliminarily indicated in vitro artificial" differentiation of iPSCs also undergoing a possible trophoblastic stem cell stage as witnessed in vivo. In conclusion we provided an in vitro cellular model to study early trophoblast development for specific individual by using the feasible amnion. View Publication

The high proliferation rate of embryonic stem cells (ESCs) is thought to arise partly from very low expression of p21. However,how p21 is suppressed in ESCs has been unclear. We found that p53 binds to the p21 promoter in human ESCs (hESCs) as efficiently as in differentiated human mesenchymal stem cells,however it does not promote p21 transcription in hESCs. We observed an enrichment for both the repressive histone H3K27me3 and activating histone H3K4me3 chromatin marks at the p21 locus in hESCs,suggesting it is a suppressed,bivalent domain which overrides activation by p53. Reducing H3K27me3 methylation in hESCs rescued p21 expression,and ectopic expression of p21 in hESCs triggered their differentiation. Further,we uncovered a subset of bivalent promoters bound by p53 in hESCs that are similarly induced upon differentiation in a p53-dependent manner,whereas p53 promotes the transcription of other target genes which do not show an enrichment of H3K27me3 in ESCs. Our studies reveal a unique epigenetic strategy used by ESCs to poise undesired p53 target genes,thus balancing the maintenance of pluripotency in the undifferentiated state with a robust response to differentiation signals,while utilizing p53 activity to maintain genomic stability and homeostasis in ESCs. View Publication

Induced pluripotent stem cells (iPSCs) have the ability to differentiate in any specialized somatic cell type,which makes them an attractive tool for a wide variety of scientific approaches,including regenerative medicine. However,their pluripotent state and their growth in compact colonies render them difficult to access and,therefore,restrict delivery of specific agents for cell manipulation. Thus,our investigation focus was set on the evaluation of the capability of Layer-by-Layer (LbL) designed microcarriers to serve as a potential drug delivery system to iPSCs,as they offer several appealing advantages. Most notably,these carriers allow for the transport of active agents in a protected environment and for a rather specific delivery through surface modifications. As we could show,charge and mode of LbL carrier application as well as the size of the iPSC colonies determine the interaction with and the uptake rate by iPSCs. None of the examined conditions had an influence on iPSC colony properties such as colony morphology and size or maintenance of pluripotent properties. An overall interaction rate of LbL carriers with iPSCs of up to 20 % was achieved. Those data emphasize the applicability of LbL carriers for stem cell research. Additionally,the potential use of LbL carriers as a promising delivery tool for iPSCs was contrasted to viral particles and liposomes. The identified differences among those delivery tools have substantiated our major conclusion that LbL carrier uptake rate is influenced by characteristic features of the iPSC colonies (most notably colony size) in addition to their surface charges. View Publication