FOXP3~+调节性T细胞

调节性T细胞是一类可以调节其他多种免疫细胞功能的T细胞亚型,其正常生理功能对体内免疫稳态维持必不可少。调节性T细胞功能失调与人类多种重大疾病,如自身免疫性疾病、感染性疾病、过敏性疾病、恶性肿瘤、移植排斥的发生、发展及治疗都密切相关。调节性T细胞可分为多种亚型,其中最重要也是目前研究最多的为表达叉头状家族转录因子FOXP3的天然调节性T细胞及诱导调节性T细胞。深入研究FOXP3+调节性T细胞的发育及功能的分子及细胞免疫学机制,将为重大免疫性疾病的临床治疗提供创新性线索。     

Molecular characteristics and possible functions of innate lymphoid cells in the uterus and gut

With the discovery of innate lymphoid cells (ILCs), which are especially enriched in barrier surfaces, the family of innate lymphocytes has grown. A unique characterization of these cells can provide a phenotypical definition of ILCs and their specific functions in different tissue environments. Although ILCs are part of the innate immune system, they are derived from lymphoid lineages lacking rearranged antigen-specific and pattern-recognition receptors. The International Union of Immunological Societies (IUIS) favors the notion that ILCs can be generally divided into five main groups, namely, NK cells, ILC1s, ILC2s, ILC3s and LTi cells. These cells can be specifically stimulated by environmental and pathogen-derived signals. Upon stimulation, ILCs can rapidly secrete a wide range of soluble cytokines that can modulate the functions of effector cells. Over the last decade, ILCs, especially helper ILCs, which do not include NK cells, have been recognized to be a crucial cell type involved in integrating diverse host immune responses. Recently, emerging research has shown that helper ILCs also play a critical role in promoting tissue restoration and immune responses at barrier surfaces. Notably, helper ILCs act as a double-edged sword, being involved in the inflammatory and reparative responses during homeostasis and disease. Therefore, in this review, we summarize the current findings regarding the molecular characteristics and tissue-specific effector functions of helper ILCs in the uterus during physiological and pathological pregnancy and in the intestine during homeostasis and inflammation.     

Control of pathogens and microbiota by innate lymphoid cells

Innate lymphoid cells (ILCs) are the innate counterpart of T cells. Upon infection or injury, ILCs react promptly to direct the developing immune response to the one most adapted to the threat facing the organism. Therefore, ILCs play an important role early in resistance to infection, but also to maintain homeostasis with the symbiotic microbiota following perturbations induced by diet and pathogens. Such roles of ILCs have been best characterized in the intestine and lung, mucosal sites that are exposed to the environment and are therefore colonized with diverse but specific types of microbes. Understanding the dialogue between pathogens, microbiota and ILCs may lead to new strategies to re-inforce immunity for prevention, vaccination and therapy.     

Vasoactive intestinal peptide and regulatory T-cell induction: a new mechanism and therapeutic potential for immune homeostasis

The identification of regulatory T (Treg) cells as important regulators of self-tolerance has opened up new therapeutic avenues for the treatment of several human diseases associated with Treg dysfunction, including autoimmune diseases and transplantation. Recent evidence indicates that vasoactive intestinal peptide (VIP), an anti-inflammatory neuropeptide with therapeutic potential in various immune disorders, participates in maintaining immune tolerance by a novel mechanism of inducing the generation of Treg cells. We propose a Treg-cell-based immunotherapy approach for resetting the balance of immune homeostasis, which takes advantage of novel functions of VIP in immunoregulation.     

The function and potential drug targets of tumour-associated Tregs for cancer immunotherapy

Regulatory T cells(Tregs) play an important role in maintaining self-tolerance and immune homeostasis, but they also play a negative role in evoking effective antitumour immune responses. There is ample evidence indicating that the depletion of Tregs or the inhibition of Treg function will enhance antitumour effects. However, it is unclear which surface molecules of Tregs are suitable targets for tumour immunotherapy with minimal toxic side effects, which is a central theme in the field of Treg-targeted immunotherapy. In this review, we focus on the regulatory mechanisms of Tregs, including intrinsic and extrinsic factors within the tumour microenvironment, and we address potential drug targets on Tregs for immunotherapy.     

Role of myeloid cells in tumor angiogenesis and growth

Cells of the innate immune system have a key role in maintaining homeostasis by providing the first line of defense against many pathogens. Innate immunity can also modulate the activity of acquired immunity by several mechanisms. However, subsets of myeloid cells can facilitate tumor growth, because these cells produce angiogenic factors and can also prevent the immune system from attacking tumor cells. Recent studies also emphasize the role of myeloid cells in mediating refractoriness to anti-VEGF treatments. This function of myeloid cells occurs through a proangiogenic pathway that is, at least in part, driven by the secreted protein Bv8. This review summarizes recent findings on the complex role of bone marrow-derived cells in tumor growth.     

肠道微生物对肠道屏障功能完整性的维护机制研究概况

肠道微生物群是一个稳定且复杂的生态系统,可以通过形成菌膜屏障或促进肠道上皮细胞增殖分化等方式形成保护屏障,并在肠道病原菌感染和威胁期间维持和促进免疫稳态中起积极作用。本文重点叙述宿主-肠道微生物相互作用过程中抗病原菌感染的方式,以及肠道微生物参与合成抗菌化合物抵御肠道病原菌入侵和威胁的机制,为调控肠道微生物解决临床胃肠道疾病及其相关症状提供理论参考依据。     

TIPE2, a negative regulator of innate and adaptive immunity that maintains immune homeostasis

Immune homeostasis is essential for the normal functioning of the immune system, and its breakdown leads to fatal inflammatory diseases. We report here the identification of a member of the tumor necrosis factor-alpha-induced protein-8 (TNFAIP8) family, designated TIPE2, that is required for maintaining immune homeostasis. TIPE2 is preferentially expressed in lymphoid tissues, and its deletion in mice leads to multiorgan inflammation, splenomegaly, and premature death. TIPE2-deficient animals are hypersensitive to septic shock, and TIPE2-deficient cells are hyper-responsive to Toll-like receptor (TLR) and T cell receptor (TCR) activation. Importantly, TIPE2 binds to caspase-8 and inhibits activating protein-1 and nuclear factor-kappaB activation while promoting Fas-induced apoptosis. Inhibiting caspase-8 significantly blocks the hyper-responsiveness of TIPE2-deficient cells. These results establish that TIPE2 is an essential negative regulator of TLR and TCR function, and its selective expression in the immune system prevents hyperresponsiveness and maintains immune homeostasis.     

调节性B细胞在肿瘤免疫治疗中的作用

调节性B细胞(regulatory B cell, Breg)是一类具有免疫抑制功能的B细胞亚群,在维持机体免疫平衡中发挥重要作用,主要通过分泌抗炎性细胞因子发挥免疫抑制功能。Breg在炎症、自身免疫性疾病及肿瘤等疾病中发挥重要作用,并逐渐成为肿瘤免疫治疗研究的新焦点。本文介绍了肿瘤微环境中Breg的表型及其作用,综述了近年来以Breg为靶点的肿瘤免疫治疗研究进展,以期为利用Breg提高肿瘤免疫治疗效果提供新思路。     

LAG-3的免疫学功能及其抗体药物的研究进展

淋巴细胞活化因子-3(lymphocyte activation gene-3,LAG-3)又名CD223,为一类免疫检查点受体蛋白,主要表达于活化的免疫细胞中。LAG-3分子在生理条件下可维持机体免疫稳态,在肿瘤微环境中可介导肿瘤细胞的免疫逃逸,因此,可将LAG-3作为肿瘤免疫治疗的新靶点进行研究。LAG-3阻断性抗体可有效缓解其他免疫检查点抑制剂导致的患者耐受,且在药物联用方面具有较好的临床疗效。目前,国内外有多款抗体药物处于研发阶段,部分已进入临床后期阶段。该文从结构、表达、功能等多个方面对LAG-3分子进行综述,并阐述其相关抗体药物的临床研究进展以及市场情况。     

Interleukin-2 and interleukin-15: immunotherapy for cancer

Interleukin (IL)-2 and IL-15 are two cytokine growth factors that regulate lymphocyte function and homeostasis. Early clinical interest in the use of IL-2 in the immunotherapy of renal cell carcinoma and malignant melanoma demonstrated the first efficacy for cytokine monotherapy in the treatment of neoplastic disease. Advances in our understanding of the cellular and molecular biology of IL-2 and its receptor complex have provided rationale to better utilize IL-2 to expand and activate immune effectors in patients with cancer. Exciting new developments in monoclonal antibodies recognizing tumor targets and tumor vaccines have provided new avenues to combine with IL-2 therapy in cancer patients. IL-15, initially thought to mediate similar biological effects as IL-2, has been shown to have unique properties in basic and pre-clinical studies that may be of benefit in the immunotherapy of cancer. This review first summarizes the differences between IL-2 and IL-15 and highlights that better understanding of normal physiology creates new ideas for the immunotherapy of cancer. The application of high, intermediate, and low/ultra low dose IL-2 therapy in clinical trials of cancer patients is discussed, along with new avenues for its use in neoplastic diseases. The growing basic and pre-clinical evidence demonstrating that IL-15 may be useful in immunotherapy approaches to cancer is also presented.     

microRNA在实体肿瘤免疫反应中的调节作用

免疫反应的作用逐渐成为调节各种复杂癌症的关键因素。免疫治疗也逐渐成为癌症肿瘤的有效干预方式。肿瘤微环境包含不同类型的免疫细胞,这有助于调节抗肿瘤信号中先天性和适应性免疫系统之间的细微平衡。在这种环境下,肿瘤细胞与免疫细胞之间相互关联的机制有待广泛阐明,但目前已被证明,多种microRNA在实体肿瘤相关免疫细胞的发育和功能中起调控作用,其通过肿瘤及免疫细胞介导免疫抑制或免疫刺激因子分泌增强或抑制免疫应答,靶向调控肿瘤发生的相关免疫途径,从而在癌症起始、转移进展的所有阶段中起关键作用,近而在肿瘤免疫治疗中寻找新的治疗靶点。本文针对microRNA在肿瘤免疫反应中的相关调节进行综述。     

Focus on mast cells in the tumor microenvironment: Current knowledge and future directions

Mast cells (MCs) are crucial cells participating in both innate and adaptive immune processes that play important roles in protecting human health and in the pathophysiology of various diseases, such as allergies, cardiovascular diseases, and autoimmune diseases. In the context of tumors, MCs are a non-negligible population of immune cells in the tumor microenvironment (TME). In most tumor types, MCs accumulate in both the tumor tissue and the surrounding tissue. MCs interact with multiple components of the TME, affecting TME remodeling and the tumor cell fate. However, controversy persists regarding whether MCs contribute to tumor progression or trigger an anti-tumor immune response. This review focuses on the context of the TME to explore the specific properties and functions of MCs and discusses the crosstalk that occurs between MCs and other components of the TME, which affect tumor angiogenesis and lymphangiogenesis, invasion and metastasis, and tumor immunity through different mechanisms. We also anticipate the potential role of MCs in cancer immunotherapy, which might expand upon the success achieved with existing cancer therapies.     

Challenges and prospects of immunotherapy as cancer treatment

The concept of cancer immunotherapy stems from the proposed function of the immune system, called immunosurveillance, to protect against growing tumors. Due to genetic aberrations, tumor cells display an altered repertoire of MHC-associated peptides that can lead to the activation of immune cells able to eliminate the transformed cells. In some instances, under the pressure of the immune system, both the tumor and its microenvironment are shaped and immune-resistant tumor variants are selected initiating the process of cancer immunoediting. This can impair not only host-generated immunosurveillance, but also attempts to harness the immune response for therapeutic purposes, namely immunotherapy. Rather than being an exhaustive review of the different approaches of cancer immunotherapy, the focus of this review is to provide the reader with future challenges of the field by proposing 'second generation' immunotherapy approaches that take into account immunosubversive mechanisms adopted by tumor cells. After an introduction on the process of immunosurveillance and immunoescape we will analyze why current immunotherapy approaches have not fulfilled their promise and will finish by summarizing what are the challenges for future approaches.     

Prothymosin alpha: a ubiquitous polypeptide with potential use in cancer diagnosis and therapy

The thymus is a central lymphoid organ with crucial role in generating T cells and maintaining homeostasis of the immune system. More than 30 peptides, initially referred to as “thymic hormones,” are produced by this gland. Although the majority of them have not been proven to be thymus-specific, thymic peptides comprise an effective group of regulators, mediating important immune functions. Thymosin fraction five (TFV) was the first thymic extract shown to stimulate lymphocyte proliferation and differentiation. Subsequent fractionation of TFV led to the isolation and characterization of a series of immunoactive peptides/polypeptides, members of the thymosin family. Extensive research on prothymosin α (proTα) and thymosin α1 (Tα1) showed that they are of clinical significance and potential medical use. They may serve as molecular markers for cancer prognosis and/or as therapeutic agents for treating immunodeficiencies, autoimmune diseases and malignancies. Although the molecular mechanisms underlying their effect are yet not fully elucidated, proTα and Tα1 could be considered as candidates for cancer immunotherapy. In this review, we will focus in principle on the eventual clinical utility of proTα, both as a tumor biomarker and in triggering anticancer immune responses. Considering the experience acquired via the use of Tα1 to treat cancer patients, we will also discuss potential approaches for the future introduction of proTα into the clinical setting.     

Local secretion of anti-CTLA-4 enhances the therapeutic efficacy of a cancer immunotherapy with reduced evidence of systemic autoimmunity

Promising anti-tumor responses have been observed in the clinic using monoclonal antibodies (mAbs) that block immune checkpoints. One concern with these therapeutic agents remains the potential induction of immune breakthrough events (IBEs) resulting from the disruption of T cell homeostasis or the breaking of tolerance to self antigens. As an approach to maintaining anti-tumor responses but decreasing the likelihood of these events, the local expression of a mAb in combination with a GM-CSF-secreting cancer immunotherapy was evaluated. Using anti-cytotoxic T lymphocyte antigen (CTLA)-4 as a model antibody to test this hypothesis, tumor cell lines were generated that expressed the full-length mAb in addition to GM-CSF. Evaluation of these cell lines in two therapeutic tumor models revealed that local, cell-mediated delivery of anti-CTLA-4 from a GM-CSF-secreting tumor cell immunotherapy activated potent anti-tumor responses and prolonged overall survival at significantly lower serum mAb levels in the host. Furthermore, lowering the systemic exposure of the host to the immune modulatory mAb correlated with reduced evidence of systemic autoimmunity. This approach has broad utility for the delivery of mAbs or proteins locally from cellular immunotherapies to minimize IBEs while retaining the potent therapeutic effects of such combination treatments.     

过继免疫治疗中DC-CIK的研究进展

目前,免疫细胞生物学和免疫分子生物学发展迅猛,由于其具备低毒性和高效率的特性,肿瘤免疫治疗在恶性肿瘤治疗中所起的作用引起了学者们的广泛关注,其中细胞介导的过继免疫治疗为当前研究的热点之一。过继免疫治疗(adoptive cellular immunotherapy,ACI)是目前恶性肿瘤治疗的新方向,它通过向细胞免疫功能低下者回输具有抗肿瘤活性的免疫细胞,直接杀伤或间接杀伤肿瘤细胞,使其获得抗肿瘤免疫力。树突状细胞(Dendritic cell DC)是专职抗原递呈细胞(antigen presenting cell APC)之一,在机体免疫应答的启始、调节、维持中发挥核心作用。细胞因子诱导的杀伤(cytokine induced killer CIK)细胞具有高效的MHC非限制性溶瘤活性,具有极其广泛的杀瘤范围。近年来,国内外大量研究表明,联合培养的DC-CIK抗肿瘤活性提升明显,患者预后生存期延长,效果显著。本文就DC与CIK生物学特点及抗肿瘤作用予以简要综述。     

固有淋巴细胞在脂质代谢中的研究进展

由于世界范围内营养条件和生活方式的变化,肥胖及其相关的代谢性疾病已成为当前威胁人类健康的重要因素之一.在能量摄取和消耗以及体内脂肪储存、分解和脂肪组织重塑的研究中,人们逐渐认识到脂质过量及异位堆积将导致代谢组织处于慢性炎症状态,这开启了肥胖相关组织炎症研究的新方向.固有淋巴细胞(innate lymphoid cell...