Tumor-induced tolerance and immune suppression by myeloid derived suppressor cells

Summary: Emerging evidence indicates that the Achilles' heel of cancer immunotherapies is often the complex interplay of tumor-derived factors and deviant host properties, which involve a wide range of immune elements in the lymphoid and myeloid compartments. Regulatory lymphocytes, tumor-conditioned myeloid-derived suppressor cells (MDSCs), tumor-associated macrophages, and dysfunctional and immature dendritic cells take part in a complex immunoregulatory network. Despite the fact that some mechanisms governing tumor-induced immune tolerance and suppression are starting to be better understood and their complexity dissected, little is known about the diachronic picture of immune tolerance. Based on observations of MDSCs, we present a time-structured and topologically consistent idea of tumor-dependent tolerance progression in tumor-bearing hosts.     

Split tolerance between spleen and lymph node cells in severe combined immunodeficiency mice grafted with AKR fetal liver cells

Severe combined Immunodeficient (SCID) mice defective in stemcells for T and B cells appear to be an ideal host for constructionof chimeric mice. When bone marrow cells are used as a sourceof stem cells, however, host SCID mice do not always show sufficientreconstitutlon. In this study, fetal liver cells from AKR embryoswere transplanted into SCID mice without prior irradiation.This treatment induced full reconstltution of lymphopoiesisas evaluated by flow cytometry analysis and serum Ig production2 months after transplantation. Thus, fetal liver cells seemto be a better source for reconstitutlon of SCID mice than bonemarrow cells. Lymph node (LN) cells of these mice (FLT mice)had no proliferatlve or cytotoxlc activities against eitherhost-type (C.B-17) or donor-type (AKR) spleen cells. However,spleen cells from FLT mice exhibited marked proliferatlve andcytotoxlc activities against C.B-17 cells, with no activitiesagainst AKR cells. Spirt tolerance against C.B-17 cells In spleenand LN cells was not a transient phenomenon, since similar resultswere obtained from a cytotoxic T lymphocyte assay 4 months later.In spite of the strong host reactivity in vitro, aberrationof clonal deletion or development of a graft-versus-host diseasewas not seen in FLT mice. As IL-2 induced the host reactivityof LN cells in a mixed lymphocyte reaction, potentially host-reactiveT cells were present in LN but were rendered anerglc. Tolerancein FLT mice seems to be regulated by a peripheral mechanism.We supposed that the split tolerance in FLT mice was inducedby the different antigenicity between the spleen and LN.     

医学图像光线投影体绘制中一种改进的快速算法

光线投影算法是体绘制算法中图像效果比较好的方法，但存在运算量大，绘制速度慢的问题。为此本文提出了一种新的光线投影体绘制的加速算法，利用重采样点在两坐标系中的矩阵变换特性。减少矩阵运算量，加快重采样计算过程，并且通过将Bresenham算法扩展至三维，利用包围盒技术避免对空体元的采样，从而加速了光线投影的效率。实验结果表明改进后的加速算法，既能保证绘制质量，又能显著减少计算量，提高体绘制的速度。     

Schedule and quinine induced deprivation in feeding and refeeding

Twenty female albino rats were adapted to either 0 or 23 hr of food deprivation. Half of each group was then fed 0.125% quinine sulfate adulterated diet for seven days. Following the quinine feeding, ad lib feeding (refeeding) was instituted for 14 days. Several conclusions were drawn from the results: (1) rats on a deprivation schedule fail to show a predicted change to regulation on the basis of taste rather than calories; (2) rats on food deprivation actually increase their relative intake of water; (3) refeeding after a deprivation schedule does not lead to depression of initial intake below normal, but otherwise the process of recovery follows the same course as after total starvation.     

CD4+CD25+T细胞的扩增方法与临床应用

CD4+CD25+T细胞是最重要的一类调节性T细胞(Tr).体内固有CD4+CD25+T细胞的自然扩增率极低,不能满足临床治疗的需要.通过采用FoxP3基因转染技术、阻断细胞活化信号、DC诱导、加入细胞因子等方法,对CD4+CD25+T细胞的数量和功能进行扩增,使其在器官移植、自身免疫性疾病和肿瘤免疫等领域具有广泛的临床应用前景.     

Role of Der p 1–specific B cells in immune tolerance during 2 years of house dust mite–specific immunotherapy

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Mechanical measures during maximal velocity knee extension exercise and their relation to fibre composition of the human vastus lateralis muscle

Summary A method for measuring the maximal velocity of knee extension exercise is described using a very light lever arm. Instrumentation of the lever arm with a potentiometer and accelerometer also allows for the measurement of peak acceleration, time to peak acceleration, the average rate of development of acceleration (jerk) and peak torque. With this apparatus and surface electromyography, electromechanical delay (EMD) was also determined. This apparatus was tested using 17 female and 10 male subjects, and the measures obtained were related to the percentage of fast twitch fibres (% FT) and the relative area of fast twitch fibres (% FTA) in the vastus lateralis determined from duplicate muscle biopsy samples. Peak velocity of unloaded knee extension averaged 12.1±1.2 and 12.2±1.7 rad · s^–1 for females and males, respectively, and were not significantly different. As well, peak acceleration, time to peak acceleration jerk and EMD values were not significantly different between the female and male subjects, but the mean peak torque for the female subjects (73.5±14.7 N · m) was significantly lower than that for the males (98.4±31.5 N · m). Peak acceleration was significantly correlated with %FT (r=0.40,P=0.04) for the total subject population. None of the other measures was significantly related to either %FT or %FTA for the male and female subjects or the combined population of subjects.     

CD4+ T cells determine the ability of spleen cells from F1 hybrid mice to induce neonatal tolerance to alloantigens and autoimmunity in parental mice

Spleen cells from F₁ hybrid mice injected into newborn parental mice induce a state of cytolytic unresponsiveness to the corresponding alloantigens. However, these mice develop a transient autoimmune syndrome characterized by the production of multiple autoantibodies and glomerulonephritis. Previous reports indicated that the depletion of F₁ donor T cells, shortly prior the injection into parental mice, does not interfere with any of these events. Here, we have explored whether the continuous absence of T cells in F₁ mice influences the ability of their spleen cells to induce neonatal tolerance to alloantigens and the associated autoimmune manifestations. Our results revealed that spleen cells from athymic (BALB/c × C57BL/6) F₁ hybrid (CB6F₁) nulnu mice or from euthymic CB6F₁ mice depleted from birth of CD4⁺ T cells, but not of CD8⁺ T cells, are unable to induce neonatal tolerance to alloantigens and autoimmune manifestations. By contrast, the partial reconstitution of T cells in CB6F¹ nulnu mice, after the neonatal graft of a syngeneic thymus, restored the capacity of spleen cells from these mice to induce tolerance and autoimmunity when injected into newborn BALB/c mice. These results demonstrate that the functional defect of spleen cells from athymic CB6F₁ nulnu mice to induce neonatal tolerance to alloantigens is directly related to the long-term absence of mature CD4⁺ T cells. Interestingly, a new increase in the titers of anti-DNA Ab was observed when spleen cells from athymic CB6F₁ nulnu mice were injected into adult BALB/c mice that had been tolerized at birth with normal CB6F₁ spleen cells. This finding indicates that B cells from CB6F₁ nulnu mice recover their capacity to interact with alloreactive Th2 cells when they are placed into mice having functional CD4⁺ T cells. These data indicate that the continuous absence of CD4⁺ T cells causes a reversible functional defect in F₁ spleen cells that determines their inability to induce neonatal tolerance and autoimmunity.