Research Progress of Immune Heterogeneity in Leukemia Microenvironment--Review / 中国实验血液学杂志

Although the body has a strong immune system which can resists the invasion of leukemia cells, leukemia cells disseminate systemically and form an immunosuppressive microenvironment through a variety of mechanisms, including regulation of antigen presentation, utilization of immunosuppressive enzyme AXL, immune cell inhibitory checkpoint NKG2A and immunoregulatory gene VISTA, resulting in immune escape. Therefore, most types of leukemia are inevitable for the affliction of drug resistance or relapse, and the immune efficacy is not as significant as that of other hematological tumors and the prognosis is suboptimal. This article reviews the immune heterogeneity of leukemia microenvironment from many aspects, including anti-leukemia immunity and immune escape. In addition, it also reviews the latest progress and future prospects of immune checkpoint inhibition, adoptive cell therapy and vaccine therapy in leukemia, providing a theoretical basis for the development of personalized combination therapy strategies with less toxic side effects.

The Oncogenesis of Glial Cells in Diffuse Gliomas and Clinical Opportunities / 神经科学通报·英文版

Glioma is the most common and lethal intrinsic primary tumor of the brain. Its controversial origins may contribute to its heterogeneity, creating challenges and difficulties in the development of therapies. Among the components constituting tumors, glioma stem cells are highly plastic subpopulations that are thought to be the site of tumor initiation. Neural stem cells/progenitor cells and oligodendrocyte progenitor cells are possible lineage groups populating the bulk of the tumor, in which gene mutations related to cell-cycle or metabolic enzymes dramatically affect this transformation. Novel approaches have revealed the tumor-promoting properties of distinct tumor cell states, glial, neural, and immune cell populations in the tumor microenvironment. Communication between tumor cells and other normal cells manipulate tumor progression and influence sensitivity to therapy. Here, we discuss the heterogeneity and relevant functions of tumor cell state, microglia, monocyte-derived macrophages, and neurons in glioma, highlighting their bilateral effects on tumors. Finally, we describe potential therapeutic approaches and targets beyond standard treatments.

Heterogeneity of the tumor immune microenvironment and clinical interventions / 医学前沿

The tumor immune microenvironment (TIME) is broadly composed of various immune cells, and its heterogeneity is characterized by both immune cells and stromal cells. During the course of tumor formation and progression and anti-tumor treatment, the composition of the TIME becomes heterogeneous. Such immunological heterogeneity is not only present between populations but also exists on temporal and spatial scales. Owing to the existence of TIME, clinical outcomes can differ when a similar treatment strategy is provided to patients. Therefore, a comprehensive assessment of TIME heterogeneity is essential for developing precise and effective therapies. Facilitated by advanced technologies, it is possible to understand the complexity and diversity of the TIME and its influence on therapy responses. In this review, we discuss the potential reasons for TIME heterogeneity and the current approaches used to explore it. We also summarize clinical intervention strategies based on associated mechanisms or targets to control immunological heterogeneity.