Breast cancer is the most common type of cancer worldwide and one of the major causes of cancer death in women. Epidemiological studies have established a link between night-shift work and increased ...cancer risk, suggesting that circadian disruption may play a role in carcinogenesis. Here, we aim to shed light on the effect of chronic jetlag (JL) on mammary tumour development. To do this, we use a mouse model of spontaneous mammary tumourigenesis and subject it to chronic circadian disruption. We observe that circadian disruption significantly increases cancer-cell dissemination and lung metastasis. It also enhances the stemness and tumour-initiating potential of tumour cells and creates an immunosuppressive shift in the tumour microenvironment. Finally, our results suggest that the use of a CXCR2 inhibitor could correct the effect of JL on cancer-cell dissemination and metastasis. Altogether, our data provide a conceptual framework to better understand and manage the effects of chronic circadian disruption on breast cancer progression.
Use of clinical-grade human induced pluripotent stem cell (iPSC) lines as a starting material for the generation of cellular therapeutics requires demonstration of comparability of lines derived from ...different individuals and in different facilities. This requires agreement on the critical quality attributes of such lines and the assays that should be used. Working from established recommendations and guidance from the International Stem Cell Banking Initiative for human embryonic stem cell banking, and concentrating on those issues more relevant to iPSCs, a series of consensus workshops has made initial recommendations on the minimum dataset required to consider an iPSC line of clinical grade, which are outlined in this report. Continued evolution of this field will likely lead to revision of these guidelines on a regular basis.
The use of mesenchymal stem cells (MSC) derived from several sources has been suggested as a major anti‐inflammation strategy during the recent outbreak of coronavirus‐19 (COVID‐19). As the virus ...enters the target cells through the receptor ACE2, it is important to determine if the MSC population transfused to patients could also be a target for the virus entry. We report here that ACE2 is highly expressed in adult bone marrow, adipose tissue, or umbilical cord‐derived MSC. On the other hand, placenta‐derived MSC express low levels of ACE2 but only in early passages of cultures. MSC derived from human embryonic stem cell or human induced pluripotent stem cells express also very low levels of ACE2. The transcriptome analysis of the MSCs with lowest expression of ACE2 in fetal‐like MSCs is found to be associated in particularly with an anti‐inflammatory signature. These results are of major interest for designing future clinical MSC‐based stem cell therapies for severe COVID‐19 infections.
The authors report that mesenchymal stem cells (MSC) derived from adult sources express high levels of ACE2, which could facilitate the SARS‐Cov2 entry, compared with MSC derived from embryonic or pluripotent stem cell (iPSC)‐derived MSC. The latter population could be the most adequate sources for cell therapy of severe COVID‐19 infection, as they could be less prone to SARS‐Cov2 entry.
TLR Ligands Stimulation Protects MSC from NK Killing Giuliani, Massimo; Bennaceur‐Griscelli, Annelise; Nanbakhsh, Arash ...
Stem cells (Dayton, Ohio),
January 2014, 2014-Jan, 2014-01-01, 20140101, Letnik:
32, Številka:
1
Journal Article
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Mesenchymal stem cells (MSCs) play a fundamental role in allograft rejection and graft‐versus‐host disease through their immunosuppressive abilities. Recently, Toll‐like receptors (TLR) have been ...shown to modulate MSC functions. The aim of this study was to investigate the effects of several TLR ligands on the interaction between MSC and natural killer (NK) cells. Our results show that TLR‐primed adult bone marrow and embryonic MSC are more resistant than unprimed MSC to IL‐2‐activated NK‐induced killing. Such protection can be explained by the modulation of Natural Killer group 2D ligands major histocompatibility complex class I chain A and ULBP3 and DNAM‐1 ligands by TLR‐primed MSC. These results indicate that MSCs are able to adapt their immuno‐behavior in an inflammatory context, decreasing their susceptibility to NK killing. In addition, TLR3 but not TLR4‐primed MSC enhance their suppressive functions against NK cells. However, the efficiency of this response is heterogeneous, even if the phenotypes of different analyzed MSC are rather homogeneous. The consequences could be important in MSC‐mediated cell therapy, since the heterogeneity of adult MSC responders may be explored in order to select the more efficient responders. Stem Cells 2014;32:290–300
The worldwide pandemic caused by the SARS-CoV-2 virus is characterized by significant and unpredictable heterogeneity in symptoms that remains poorly understood.
Transcriptome and single cell ...transcriptome of COVID19 lung were integrated with deeplearning analysis of MHC class I immunopeptidome against SARS-COV2 proteome.
An analysis of the transcriptomes of lung samples from COVID-19 patients revealed that activation of MHC class I antigen presentation in these tissues was correlated with the amount of SARS-CoV-2 RNA present. Similarly, a positive relationship was detected in these samples between the level of SARS-CoV-2 and the expression of a genomic cluster located in the 6p21.32 region (40 kb long, inside the MHC-II cluster) that encodes constituents of the immunoproteasome. An analysis of single-cell transcriptomes of bronchoalveolar cells highlighted the activation of the immunoproteasome in CD68 + M1 macrophages of COVID-19 patients in addition to a PSMB8-based trajectory in these cells that featured an activation of defense response during mild cases of the disease, and an impairment of alveolar clearance mechanisms during severe COVID-19. By examining the binding affinity of the SARS-CoV-2 immunopeptidome with the most common HLA-A, -B, and -C alleles worldwide, we found higher numbers of stronger presenters in type A alleles and in Asian populations, which could shed light on why this disease is now less widespread in this part of the world.
HLA-dependent heterogeneity in macrophage immunoproteasome activation during lung COVID-19 disease could have implications for efforts to predict the response to HLA-dependent SARS-CoV-2 vaccines in the global population.
X-chromosome inactivation (XCI) in mammals relies on XIST, a long noncoding transcript that coats and silences the X chromosome in cis. Here we report the discovery of a long noncoding RNA, XACT, ...that is expressed from and coats the active X chromosome specifically in human pluripotent cells. In the absence of XIST, XACT is expressed from both X chromosomes in humans but not in mice, suggesting a unique role for XACT in the control of human XCI initiation.
Celotno besedilo
Dostopno za:
DOBA, IJS, IZUM, KILJ, NUK, PILJ, PNG, SAZU, UILJ, UKNU, UL, UM, UPUK
During aging, hematopoietic stem cells (HSC) lose progressively both their self-renewal and differentiation potential. The precise molecular mechanisms of this phenomenon are not well established. To ...uncover the molecular events underlying this event, we have performed a bioinformatics analysis of 650 single-cell transcriptomes.
Single-cell transcriptome analyses of expression heterogeneity, cell cycle, and cell trajectory in human cell compartment enriched in hematopoietic stem cell compartment were investigated in the bone marrow according to the age of the donors. Identification of aging-related nodules was identified by weighted correlation network analysis in this primitive compartment.
The analysis of single-cell transcriptomes allowed to uncover a major upregulation of EGR1 in human-aged lineage-CD34+CD38- cells which present cell cycle dysregulation with reduction of G2/M phase according to less expression of CCND2 during S phase. EGR1 upregulation in aging hematopoietic stem cells was found to be independent of cell cycle phases and gender. EGR1 expression trajectory in aged HSC highlighted a signature enriched in hematopoietic and immune disorders with the best induction of AP-1 complex and quiescence regulators such as EGR1, BTG2, JUNB, and NR41A. Sonic Hedgehog-related TMEM107 transmembrane molecule followed also EGR1 cell trajectory. EGR1-dependent gene weighted network analysis in human HSC-associated IER2 target protein-specific regulators of PP2A activity, IL1B, TNFSF10 ligands, and CD69, SELP membrane molecules in old HSC module with immune and leukemogenic signature. In contrast, for young HSC which were found with different cell cycle phase progression, its specific module highlighted upregulation of HIF1A hypoxic factor, PDE4B immune marker, DRAK2 (STK17B) T cell apoptosis regulator, and MYADM myeloid-associated marker.
EGR1 was found to be connected to the aging of human HSC and highlighted a specific cell trajectory contributing to the dysregulation of an inflammatory and leukemia-related transcriptional program in aged human HSCs. EGR1 and its program were found to be connected to the aging of human HSC with dissociation of quiescence property and cell cycle phase progression in this primitive hematopoietic compartment.
This study of the efficiency and the safety of amniotic fluid‐derived mesenchymal stem cell infusion in a preclinical porcine model of renal autotransplantation showed improved glomerular and tubular ...functions, leading to full renal function recovery and abrogated fibrosis development at 3 months. The highly translational porcine model used for this study is a powerful tool to assess safety and feasibility of stem cell‐based therapies in the field of solid organ transplantation.
It is well known that ischemia/reperfusion injuries strongly affect the success of human organ transplantation. Development of interstitial fibrosis and tubular atrophy is the main deleterious phenomenon involved. Stem cells are a promising therapeutic tool already validated in various ischemic diseases. Amniotic fluid‐derived mesenchymal stem cells (af‐MSCs), a subpopulation of multipotent cells identified in amniotic fluid, are known to secrete growth factors and anti‐inflammatory cytokines. In addition, these cells are easy to collect, present higher proliferation and self‐renewal rates compared with other adult stem cells (ASCs), and are suitable for banking. Consequently, af‐MSCs represent a promising source of stem cells for regenerative therapies in humans. To determine the efficiency and the safety of af‐MSC infusion in a preclinical porcine model of renal autotransplantation, we injected autologous af‐MSCs in the renal artery 6 days after transplantation. The af‐MSC injection improved glomerular and tubular functions, leading to full renal function recovery and abrogated fibrosis development at 3 months. The strong proof of concept generated by this translational porcine model is a first step toward evaluation of af‐MSC‐based therapies in human kidney transplantation.
Apoptosis-inducing factor (AIF) is a mitochondrial flavoprotein that, beyond its apoptotic function, is required for the normal expression of major respiratory chain complexes. Here we identified an ...AIF-interacting protein, CHCHD4, which is the central component of a redox-sensitive mitochondrial intermembrane space import machinery. Depletion or hypomorphic mutation of AIF caused a downregulation of CHCHD4 protein by diminishing its mitochondrial import. CHCHD4 depletion sufficed to induce a respiratory defect that mimicked that observed in AIF-deficient cells. CHCHD4 levels could be restored in AIF-deficient cells by enforcing its AIF-independent mitochondrial localization. This modified CHCHD4 protein reestablished respiratory function in AIF-deficient cells and enabled AIF-deficient embryoid bodies to undergo cavitation, a process of programmed cell death required for embryonic morphogenesis. These findings explain how AIF contributes to the biogenesis of respiratory chain complexes, and they establish an unexpected link between the vital function of AIF and the propensity of cells to undergo apoptosis.
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•AIF interacts with CHCHD4, a regulator of the intermembrane space import machinery•AIF regulates specific respiratory chain complexes by acting upstream of CHCHD4•AIF is indispensable for translation-coupled mitochondrial import of CHCHD4•Restoring CHCHD4 reverses the metabolic and cell death phenotypes of Aif−/y ESCs
Hangen et al. show that the mitochondrial protein AIF regulates the biogenesis of respiratory chain complexes by interacting with, and by controlling the mitochondrial import of the mammalian homolog of yeast MIA40, CHCHD4, which is the central component of a redox-sensitive mitochondrial intermembrane space import machinery.
A major issue in immunosuppressive biotherapy is the use of mesenchymal stem cells (MSCs) that harbor regulatory capacity. However, currently used bone marrow-derived MSCs (BM-MSCs) are short-lived ...and cannot assure long lasting immunoregulatory function both in vitro and in vivo. Consequently, we have generated MSCs from human induced pluripotent stem (IPS-MSCs) cells that share similar properties with embryonic stem cells (ES-MSCs). Herein, we compared the immunoregulatory properties of ES/IPS-MSCs with those of BM-MSCs and showed, for the first time, that IPS-derived MSCs display remarkable inhibition of NK-cell proliferation and cytolytic function in a similar way to ES-MSCs. Both MSCs disrupt NK-cell cytolytic machinery in the same fashion that BM-MSCs, by down-regulating the expression of different activation markers and ERK1/2 signaling, leading to an impairment to form immunologic synapses with target cells and, therefore, secretion of cytotoxic granules. In addition, they are more resistant than adult BM-MSCs to preactivated NK cells. IPS-MSCs could represent an attractive alternative source of immunoregulatory cells, and their capacity to impair NK-cell cytotoxicity constitutes a complex mechanism to prevent allograft rejection.