iPS cells—Alternative pluripotent cells to embryo stem cells

<正>Since the first murine and human embryonic stem cell lines were established by Drs. Evans and Kaufman [1] and Thomson et al. [2], respectively, great progress has been make in the field of     

Can resting B cells present antigen to T cells?

Antigen stimulation of T lymphocytes can occur only in the presence of an antigen-presenting cell (APC). An ever-increasing number of cell types have been found to act as APCs; these include macrophages, splenic and lymph node dendritic cells, and Langerhans' cells of the skin. Although activated B lymphocytes and B cell lymphomas are known to serve as APCs, it has been generally believed that resting B cells cannot perform this function. However, in recent studies we have found that resting B cells can indeed present soluble antigen to T cell clones as well as to antigen-primed T cells. The previous difficulty in demonstrating this activity can be explained by the finding that, in contrast to macrophages and dendritic cells, the antigen-presenting ability of resting B cells is very radiosensitive. Macrophages are usually irradiated with 2000-3300 rads to prevent them from incorporating [3H]thymidine in the T cell proliferation assay. Resting B cells, however, begin to lose presenting function at 1500 rads and have completely lost this activity at 3300 rads. It was also possible to distinguish two distinct T cell clonal phenotypes when resting B cells were used as APCs on the basis of two different assays (T cell proliferation, and B cell proliferation resulting from T cell activation). The majority of T cell clones tested were capable of both proliferating themselves and inducing the proliferation of B cells. Some T cells clones, however, could not proliferate in the presence of antigen and B cell APCs, although they were very good at inducing the proliferation of B cells. This suggests that there are two distinct pathways of T cell activation, one leading to T cell proliferation and the other leading only to the release of lymphokines (as measured by the polyclonal activation of B cells).     

Glucocorticosteroids modify Langerhans cells to produce TGF-β and expand regulatory T cells

Although glucocorticosteroids (GCSs) have been used for many decades in transplantation and (auto)inflammatory diseases, the exact mechanisms responsible for their immunosuppressive properties are not fully understood. The purpose of this study was to characterize the effects of oral GCSs on the cutaneous immune response. We analyzed, by immunofluorescence staining and quantitative RT-PCR, residual skin biopsy material from a clinical study in which we had used oral GCS as positive control for determining the effects of candidate anti-inflammatory compounds on epicutaneous patch tests of Ni-allergic patients. Expectedly, oral GCS treatment led to a reduction of clinical symptoms and infiltrating leukocytes. Notably, we observed increased numbers of dermal FOXP3(+)CD25(+) T cells and epidermal Langerhans cells (LCs) that were associated with upregulated mRNA expression of TGF-β in lesions of GCS-treated Ni-allergic patients. To investigate this phenomenon further, we exposed purified LCs to GCS. They exhibited, in contrast to GCS-nonexposed LCs, 1) a more immature phenotype, 2) higher intracellular amounts of TGF-β, and 3) increased receptor activator for NF-κB expression, conditions that reportedly favor the expansion of regulatory T cells (Tregs). Indeed, we observed an enhancement of functionally suppressive FOXP3(+) T cells when CD3(+) cells were incubated with GCS-pretreated LCs. The expansion of Tregs was inhibited by TGF-β blockage alone, and their suppressive activity was neutralized by a combination of anti-TGF-β and anti-IL-10 Abs. Our data show that systemically applied GCSs endow LCs with Treg-promoting properties and thus shed new light on the mechanisms of GCS-mediated immunosuppression.     

Dendritic cells: key to fetal tolerance?

Pregnancy is a unique event in which a fetus, despite being genetically and immunologically different from the mother (a hemi-allograft), develops in the uterus. Successful pregnancy implies avoidance of rejection by the maternal immune system. Fetal and maternal immune cells come into direct contact at the decidua, which is a highly specialized mucous membrane that plays a key role in fetal tolerance. Uterine dendritic cells (DC) within the decidua have been implicated in pregnancy maintenance. DC serve as antigen-presenting cells with the unique ability to induce primary immune responses. Just as lymphocytes comprise different subsets, DC subsets have been identified that differentially control lymphocyte function. DC may also act to induce immunologic tolerance and regulation of T cell-mediated immunity. Current understanding of DC immunobiology within the context of mammalian fetal-maternal tolerance is reviewed and discussed herein.     

Are coelenterate cells permeable to large anions?

• 1.1. Substitution of chloride by isethionate, a bulky anion, did not modify the intracellular cation or water content in cells of tentacles, and only slightly decreased sodium content in body wall cells of the coelenterate Condylactis gigantea, in contrast with the appreciable reductions expected in the case of impenneant anions.
• 2.2. As isethionic acid is a strong acid, the salt should be almost totally ionized at the pH of seawater (8.6) and at the presumably close to neutral intracellular pH. Therefore, the anion, rather than the undissociated acid, would appear to be the permeating species.
• 3.3. Isethionate ion appears to distribute across the cell membrane as does chloride: according to the transmembrane potential difference.

     

Ultrastructural responses of pancreatic β cells to metabolic alkalosis

Summary The ultrastructural changes in pancreatic cells were studied following glucose-induced insulin secretion in vitro, at two different extracellular pH (7.4 and 7.8). The pancreata perfused at pH 7.4 exhibited a biphasic insulin response to glucose challenge together with signs of increased emiocytotic activity and numerous microtubules in the cells. Conversely, the pancreata perfused at pH 7.8 showed a significant decrease in insulin secretion, and their cells revealed scarce emiocytotic images and a marked increase of intracellular granulolysis. These results represent the ultrastructural correlate of the reduced insulin secretion produced by metabolic alkalosis in the perfused rat pancreas.The authors wish to thank Mrs. Elma P. de Gagliardino and Mrs. Susana Rivas for excellent technical assistance.This research was partially supported by funds from CONICET and CIC, Pcia de Bs.As. C.L. Gómez Dumm, O.R. Rebolledo and J.J. Gagliardino are members of Carrera del Investigador del CONICET (Argentina)     

Liposome‐mediated DNA transfer to chicken sperm cells

Abstract

The efficacy of using liposomes to transfer DNA to chicken sperm cells was investigated. Liposomes were prepared from dilauroyl (12:0) phosphatidylcholine (DLPC), dimyristoyl (14:0) phosphatidyl choline (DMPC), dipalmitoyl (16:0) phosphatidylcholine (DPPC), egg yolk phosphatidylcholine (EYPC) or lipids extracted from sperm cell membranes. The efficiency of trapping of DNA into the liposomes, transfer of the DNA from the liposomes to the sperm cells and the effect of the liposomes on the fertilizing ability of the sperm cells were determined. Increasing the concentration of lipid in the liposome preparations increased the trapping efficiency of DNA into liposomes but lowered the transfer of DNA to sperm. Including stearylamine (SA) in the liposomes increased the incorporation of DNA into the liposomes and the DNA transfer to sperm cells, while including lauroyllysophosphatidylcholine (LPC) along with SA resulted in the highest transfer efficiency from liposomes to sperm. The transfer of DNA from liposomes to sperm cells was lowered by increasing the number of sperm cells, while decreasing the number of sperm cells lowered the fertility. The sperm cells remained fertile after exposure to low levels of DPPC or lipofectin reagent or to high levels of SA and LPC. The best conditions for liposome‐mediated gene transfer to chicken sperm cells are thus using either lipofectin reagent at .006 to .06 μmol/ml and 5 × 10⁷ sperm or with DPPC liposomes comprised of 10 μmol/ml total lipid including 5 mol% SA and 20 mol% LPC with 2.5 × 10⁸ sperm cells. The use of liposomes to enhance the transfer of DNA to sperm cells may make the use of sperm cells as gene transfer vectors possible.     

What really happens to dendritic cells during malaria?

As dendritic cells (DCs) initiate all adaptive and some innate immune responses, it is not surprising that DC function during malaria is the subject of intensive investigations. However, the results of these investigations have so far been controversial. Here, we discuss various aspects of these studies, including the influence of the species and strain of Plasmodium on DC function, the effects of Plasmodium infection on the activation of CD8(+) T cells by DCs, the effects of haemozoin and the effects of Plasmodium infections on DC Toll-like-receptor signalling.     

Converted neural cells: induced to a cure?

Many neurodegenerative disorders such as Parkinson’s disease (PD), amyotrophic lateral sclerosis (ALS) and others often occur as a result of progressive loss of structure or function of neurons. Recently, many groups were able to generate neural cells, either differentiated from induced pluripotent stem cells (iPSCs) or converted from somatic cells. Advances in converted neural cells have opened a new era to ease applications for modeling diseases and screening drugs. In addition, the converted neural cells also hold the promise for cell replacement therapy (Kikuchi et al., 2011; Krencik et al., 2011; Kriks et al., 2011; Nori et al., 2011; Rhee et al., 2011; Schwartz et al., 2012). Here we will mainly discuss most recent progress on using converted functional neural cells to treat neurological diseases and highlight potential clinical challenges and future perspectives.     

Antibody–peptide–MHC fusion conjugates target non-cognate T cells to kill tumour cells

Attempts to generate robust anti-tumour cytotoxic T lymphocyte (CTL) responses using immunotherapy are frequently thwarted by exhaustion and anergy of CTL recruited to tumour. One strategy to overcome this is to retarget a population of virus-specific CTL to kill tumour cells. Here, we describe a proof-of-principle study using a bispecific conjugate designed to retarget ovalbumin (OVA)-specific CTL to kill tumour cells via CD20. A single-chain trimer (SCT) consisting of MHCI H-2K^b/SIINFEKL peptide/beta 2 microglobulin/BirA was expressed in bacteria, refolded and chemically conjugated to one (1:1; F2) or two (2:1; F3) anti-hCD20 Fab′ fragments. In vitro, the [SCT × Fab′] (F2 and F3) redirected SIINFEKL-specific OT-I CTL to kill CD20⁺ target cells, and in the presence of CD20⁺ target cells to provide crosslinking, they were also able to induce proliferation of OT-I cells. In vivo, activated OT-I CTL could be retargeted to kill [SCT × Fab′]-coated B cells from hCD20 transgenic (hCD20 Tg) mice and also EL4 and B16 mouse tumour cells expressing human CD20 (hCD20). Importantly, in a hCD20 Tg mouse model, [SCT × Fab′] administered systemically were able to retarget activated OT-I cells to deplete normal B cells, and their performance matched that of a bispecific antibody (BsAb) comprising anti-CD3 and anti-CD20. [SCT × Fab′] were also active therapeutically in an EL4 tumour model. Furthermore, measurement of serum cytokine levels suggests that [SCT × Fab′] are associated with a lower level of inflammatory cytokine release than the BsAb and so may be advantageous clinically in terms of reduced toxicity.     

In vitro sensitization with HSV-lnfected cells induces Tμ cells to become cytotoxic Tγ cells which are theophylline resistant

Following in vitro sensitization with HSV-infected cells, T_γ cells comprise most of the cytotoxic effector cell population. However, whereas freshly obtained T_γ cells exhibit theophylline sensitivity in the sheep erythrocyte rosette assay, presensitized T_γ cells are theophylline resistant. Similarly, when T cells are fractionated according to their theophylline sensitivity before the sensitization culture, theophylline-resistant T_μ cells appear as the precursors of T_γ cytotoxic effector cells, the T_μ-T_γ switch occurring with a transitory eclipse of Fc receptors, and maintenance of theophylline resistance.     

Bone-marrow-derived stem cells — our key to longevity?

Bone marrow (BM) was for many years primarily regarded as the source of hematopoietic stem cells. In this review we discuss current views of the BM stem cell compartment and present data showing that BM contains not only hematopoietic but also heterogeneous non-hematopoietic stem cells. It is likely that similar or overlapping populations of primitive non-hematopoietic stem cells in BM were detected by different investigators using different experimental strategies and hence were assigned different names (e.g., mesenchymal stem cells, multipotent adult progenitor cells, or marrow-isolated adult multilineage inducible cells). However, the search still continues for true pluripotent stem cells in adult BM, which would fulfill the required criteria (e.g. complementation of blastocyst development). Recently our group has identified in BM a population of very small embryonic-like stem cells (VSELs), which express several markers characteristic for pluripotent stem cells and are found during early embryogenesis in the epiblast of the cylinder-stage embryo.     

Why are dendritic cells central to cancer immunotherapy?

Dendritic cell (DC)-based immunotherapy is rapidly emerging as a viable alternative to radiation or chemotherapy in the treatment of cancer. The resurgence of interest in cancer immunotherapy reflects the promising results that have been obtained in both animal models and early clinical trials with the DC-based approach. Here I suggest that this optimism is justified because the efficient capture and presentation of antigens by DCs is central to the induction of an immune response. I argue that the mechanism by which DCs capture antigen suggests that the immune system might actually be 'blind' to tumours, thereby challenging the theory of immune surveillance.     

Recent progress in phospholipase A₂ research: from cells to animals to humans

Mammalian genomes encode genes for more than 30 phospholipase A₂s (PLA₂s) or related enzymes, which are subdivided into several classes including low-molecular-weight secreted PLA₂s (sPLA₂s), Ca²⁺-dependent cytosolic PLA₂s (cPLA₂s), Ca²⁺-independent PLA₂s (iPLA₂s), platelet-activating factor acetylhydrolases (PAF-AHs), lysosomal PLA₂s, and a recently identified adipose-specific PLA. Of these, the intracellular cPLA₂ and iPLA₂ families and the extracellular sPLA₂ family are recognized as the “big three”. From a general viewpoint, cPLA₂α (the prototypic cPLA₂) plays a major role in the initiation of arachidonic acid metabolism, the iPLA₂ family contributes to membrane homeostasis and energy metabolism, and the sPLA₂ family affects various biological events by modulating the extracellular phospholipid milieus. The cPLA₂ family evolved along with eicosanoid receptors when vertebrates first appeared, whereas the diverse branching of the iPLA₂ and sPLA₂ families during earlier eukaryote development suggests that they play fundamental roles in life-related processes. During the past decade, data concerning the unexplored roles of various PLA₂ enzymes in pathophysiology have emerged on the basis of studies using knockout and transgenic mice, the use of specific inhibitors, and information obtained from analysis of human diseases caused by mutations in PLA₂ genes. This review focuses on current understanding of the emerging biological functions of PLA₂s and related enzymes.