Are CD8+CD122+ cells regulatory T cells or memory T cells?

We identified CD8(+)CD122(+) regulatory T cells in the mouse. Some immunologists consider CD8(+)CD122(+) cells to be memory T cells despite our report of their regulatory function. Here, we propose a dual phenotype of these cells. Murine CD8(+)CD122(+) T cells demonstrate both memory and regulatory features in their functional profiles. Human CD8(+)CXCR3(+) T cells, which are thought to be the human counterpart of murine CD8(+)CD122(+) regulatory T cells, do not match human central memory T cells of the CD8(+)CD45RA(-)CCR7(+) phenotype. Thus, we must consider human CD8(+) regulatory T cells and murine CD8(+) regulatory T cells separately. Of human CD8(+) regulatory T cells, CD8(+)CXCR3(+) regulatory T cells can be divided into further subsets and we may be able to distinguish memory T cells and regulatory T cells. Of murine CD8(+)CD122(+) regulatory T cells, it seems to be impossible to divide CD8(+)CD122(+)CD44(+)CD62L(+) regulatory T cells into further subsets at present, indicating that this single population of cells has activities of both regulatory T cells and memory T cells.     

Pre-eclampsia: a mistake of trophoblastic cells for tumour cells?

Pre-eclampsia is a severe form of hypertension induced by pregnancy. In pre-eclampsia, there is deficient trophoblast invasion of the spiral arteries terminating in the placental bed. Perhaps some abnormality occurs in the immunosuppressive process as the maternal immune system encounters paternal antigens expressed by immunosuppressive decidual cells. This immunosuppressive abnormality might cause the deficient trophoblast invasion. Abnormal placentation might then lead to maternal endothelial cell damage by an ongoing process. There might be a recurring sequence of 4 steps: (1) The placenta releases trophoblastic cells with potentially cytotoxic characteristics. These circulating trophoblastic cells have an abnormal pattern of expression of integrins and perhaps other glycoproteins or proteins. (2) The circulating trophoblastic cells loosely bind to maternal endothelial cells, targeting them for anti-tumourigenesis. (3) The maternal immune system reacts against targeted maternal endothelial cells through anti-tumourigenic mechanisms. (4) Widespread maternal endothelial damage causes the characteristic kidney lesion called glomerula endotheliosis.     

Human γδ T cells

A numerically small subset of human T lymphocytes expresses a γδ T cell receptor (TCR). These γδ T cells share certain effector functions with αβ T cells as well as with NK cells and NKT cells. The major peripheral blood γδ T cell subset in healthy adults expresses a Vγ9Vδ2 TCR, which recognizes small phosphorylated metabolites referred to as phosphoantigens. Vδ1 γδ T cells mainly occur in the intestine. They recognize the stress-induced MICA/B and CD1c. Furthermore, γδ T cells express a variety of NK cell and pattern-recognition receptors which are responsible for the “fine-tuning” of effector functions. In recent years, γδ T cells start to emerge as a rewarding target for immunotherapeutic strategies against viral infections and cancer. A better understanding of factors that modulate γδ T cell function will further eluminate the potential of these cells.     

Hematopoietic stem cells: can old cells learn new tricks?

Since the establishment of cell lines derived from human embryonic stem (ES) cells, it has been speculated that out of such "raw material," we could some day produce all sorts of replacement parts for the human body. Human pluripotent stem cells can be isolated from embryonic, fetal, or adult tissues. Enormous self-renewal capacity and developmental potential are the characteristics of ES cells. Somatic stem cells, especially those derived from hematopoietic tissues, have also been reported to exhibit developmental potential heretofore not considered possible. The initial evidences for the plasticity potential of somatic stem cells were so encouraging that the opponents of ES cell research used them as arguments for restricting ES cell research. In the past months, however, critical issues have been raised challenging the validity and the interpretation of the initial data. Whereas hematopoietic stem-cell therapy has been a clinical reality for almost 40 years, there is still a long way to go in basic research before novel therapy strategies with stem cells as replacement for other organ systems can be established. Given the present status, we should keep all options open for research in ES cells and adult stem cells to appreciate the complexity of their differentiation pathways and the relative merits of various types of stem cells for regenerative medicine.     

Can bone marrow cells give rise to cornea epithelial cells?

The corneal epithelium plays a critical role in maintaining the cornea's transparency and its avascularity. Severe damage to the limbal region results in serious problems with the corneal surface such as persistent epithelial defects, conjunctivalisation with vascularisation, keratinisation, scarring, etc. with associated profound visual loss. In order to rescue such damaged ocular surfaces, corneal epithelial stem cells were used to reconstruct artificial corneas by employing tissue engineering method. This procedure, however, requires a large limbal graft from the healthy eye and it is not possible in patients who have bilateral lesions. Therefore we should find other autologous cells as a source of cells for the reconstruction of the corneal surface. c-kit+ enriched bone marrow stem cells can give rise to different epithelial cells. So we hypothesize that this might apply to the cornea as well. Cultured cell sheets composed of autologous c-kit+ enriched bone marrow stem cells may be used to reconstruct corneal surfaces and can restore vision in patients with bilateral severe disorders of the ocular surface.     

T regulatory cells maintain intestinal homeostasis by suppressing γδ T cells

Immune tolerance against enteric commensal bacteria is important for preventing intestinal inflammation. Deletion of phosphoinositide-dependent protein kinase 1 (Pdk1) in T?cells via Cd4-Cre induced chronic inflammation of the intestine despite the importance of PDK1 in T?cell activation. Analysis of colonic intraepithelial lymphocytes of PDK1-deficient mice revealed markedly increased CD8α(+) T?cell receptor (TCR)γδ(+) T?cells, including an interleukin-17 (IL-17)-expressing population. TCRγδ(+) T?cells were responsible for the inflammatory colitis as shown by the fact that deletion of Tcrd abolished spontaneous colitis in the PDK1-deficient mice. This dysregulation of intestinal TCRγδ(+) T?cells was attributable to a reduction in the number and functional capacity of PDK1-deficient T regulatory (Treg) cells. Adoptive transfer of wild-type Treg cells abrogated the spontaneous activation and proliferation of intestinal TCRγδ(+) T?cells observed in PDK1-deficient mice and prevented the development of colitis. Therefore, suppression of intestinal TCRγδ(+) T?cells by Treg cells maintains enteric immune tolerance.     

Shared target antigens on cancer cells and tissue stem cells: go or no-go for CAR T cells?

Introduction: Adoptive therapy with chimeric antigen receptor (CAR) T cells redirected towards CD19 produces remissions of B cell malignancies, however, it also eradicates healthy B cells sharing the target antigen. Such ‘on-target off-tumor’ toxicity raises serious safety concerns when the target antigen is also expressed by tissue stem cells, with the risk of lasting tissue destruction.

Areas covered: We discuss CAR T cell targeting of activation antigens versus lineage associated antigens on the basis of recent experimental and animal data and the literature in the field.

Expert commentary: Targeting an activation associated antigen which is transiently expressed by stem cells seems to be safe, like CAR T cells targeting CD30 spare CD30⁺ hematopoietic stem and progenitor cells while eliminating CD30⁺ lymphoma cells, whereas targeting lineage associated antigens which increase in expression during cell maturation, like folate receptor-β and CD123, is of risk to destruct tissue stem cells.     

Generation of anti-tumour effector T cells from naïve T cells by stimulation with dendritic/tumour fusion cells

Tumour-draining lymph node T cells are an excellent source of effector T cells that can be used in adoptive tumour immunotherapy because they have already been sensitized to tumour-associated antigens in vivo. However, such tumour-specific immune cells are not readily obtained from the host due to poor immunogenicity of tumours and reduced host immune responses. One obstacle in implementation of adoptive immunotherapy has been insufficient sensitization and expansion of tumour-specific effector cells. In this study, we aim to improve adoptive immunotherapy by generating anti-tumour effector T cells from naïve T lymphocytes. We attempted to achieve this by harnessing the advantages of dendritic cell (DC)-based anti-cancer vaccine strategies. Electrofusion was routinely employed to produce fusion cells with 30–40% efficiency by using the poorly immunogenic murine B16/F10 cell line, D5 cells, and DC generated from bone marrow cells. CD62L-positive T cells from spleens of naïve mice and the fusion cells were cocultured with a low concentration of IL-2. After 9 days of culture, the antigen-specific T cells were identified with an upregulation of CD25 and CD69 expression and a downregulation of CD62L expression. These cells secreted IFN-γ upon stimulation with irradiated tumour cells. Moreover, when transferred into mice with 3-day established pulmonary metastases, these cells with coadministration of IL-2 exhibited anti-tumour efficacy. In contrast, naïve T cells cocultured with a mixture of unfused DC and irradiated tumour cells did not exhibit anti-tumour efficacy. Our strategy provides the basis for a new approach in adoptive T cell immunotherapy for cancer.     

Why cancer cells metastasize?

Metastasis is so complicated and well organized that there should be a good reason for it to happen. Here a hypothesis is proposed that metastasis of cancer cells is an abnormal form of migration of native stem/progenitor cells since cancer cells derive from stem/progenitor cells and may inherit stemness, including migration ability. This is an intrinsic potential and external cause mode. During metastasis, cancer cells are involved in the stem/progenitor cell recruitment to meet the need of organism for homeostasis, regeneration and repair, mediated by external signals and using inherent mechanisms but leading to catastrophic results. The “seed and soil” hypothesis can be redefined as that the “soil” is formed under certain circumstances and the “seed” is attracted to its particular “soil”. Cancer cells in the microenviroment mimicking stem cell niche may have superiority in reactivity to metastatic signals. And very few of migrating cancer cells can form metastases. The conditions suitable for metastasis formation are still waiting to be revealed. The hypothesis tries to explain why cancer cells metastasize. It is hoped that the examination of this hypothesis may lead us to the real answer.     

Y-27632 promotes differentiation of fiuman embryonic stem cells into neuron-like cells北大核心

BACKGROUND: Y-27632 is a Rho-associated coil-formed protein kinase inhibitor that can regulate the self-renewal of stem cells, promote clonal formation and cell survival, and regulate and protect neuronal cell growth and development. How to improve the differentiation efficiency of embryonic stem cells into neuron-like cells is highly important for nerve injury repair and nerve regeneration. OBJECTIVE: To investigate the effect of Y-27632 on the differentiation efficiency and function of human embryonic stem cells into neuron-like cells. METHOD5: After resuscitation, human embryonic stem cells at passage 16 were subjected to morphological observation and staining identification. The embryoid bodies were prepared by suspension culture, and after 8 days of incubation, the cells were cultured in Sato medium containing different concentrations of Y-27632 (0, 5, 10, 20, 40 µmol/L) for 10 days and identification by staining. After induction for 18 days, the differentiation efficiency and neurite outgrowth were identified by immunofluorescence staining. RE5ULT5 AND CONCLU5ION: The human embryonic stem cells co-expressed Oct4 and SSEA-3 stem cell specific markers. After suspension culture for 8 days and further adherent culture for 10 days, the cells could be differentiated into neuron-like cells with neurogenic morphology and expressing Tuj-1., '-27632, especially at a concentration of 10 µmol/L, not only promoted cell proliferation (a significant increase in adherent cells an Tuj-1 positive cells), but also facilitated cell differentiation into neurons. Immunofluorescence staining findings showed that 10 µmol/L Y-27632 significantly increased the number of Tuj-1 positive cells and neurites and the length of neurites after 18 days of differentiation. These results indicate that Y-27632 not only promotes the differentiation of human embryonic stem cells into neuron-like cells, but also accelerates neurite outgrowth. © 2018, Journal of Clinical Rehabilitative Tissue Engineering Research. All rights reserved.