Lymphoplasmacyte-rich meningioma with hematologic signs and PD-L1 over-expression

ABSTRACT Lymphoplasmacyte-rich meningioma (LPRM) is one of the rarest variants of grade I meningiomas. It can be clinically associated with prominent peripheral blood abnormalities, anemia, and/or various gammopathy, which usually disappear after surgical removal of the tumor. We document a case of right frontal LPRM in a 72-year-old male who presented general cognitive decadence. The patient suffered from mild anemia. The LPRM is a rare variant of meningioma, with only a few cases globally reported in the literature. It has been categorized as a grade I tumor in the 2021 World Health Organization (WHO) classification central nervous system. Due to the rarity, this meningioma variant origin and biological behavior are still not clear. Immunohistochemistry profile showed prominent PD-L1 expression, leading to additional interrogation on LPRM immunomorphological characteristics, the significance of the inflammatory tumoral microenvironment and its correlation with the immune-checkpoints.

Metabolic regulation of innate immunity in cancer / 药学学报

Innate immune system, a non-specific defense system formed after birth, is body's first line of defense against pathogens. Innate immunity also plays a key role in the tumor immunosurveillance. With the clinical success of cancer immunotherapy, the regulatory mechanism of innate immune cells in antitumor response has begun to draw increasing attention. Recently, it has been recognized that metabolic regulation plays a vital role in innate immunity, in particular in the tumor microenvironment where the metabolic reprogramming in cancer increases the complexity of immunometabolism yet also provides therapeutic vulnerabilities. This review summarizes the recent progress in understanding the metabolic regulation of the innate immune response. We discuss how metabolites of glucose, amino acids, lipid and nucleotide metabolism regulate the function of innate immune cells. We pay the special attention to the metabolic crosstalk between immune cells or tumor-immune cells in the tumor microenvironment. With the review, we hope to get a better understanding of metabolic regulation of antitumor immunity and provide basis for metabolism-targeted immunotherapy.

Expression of PKCι/YAP1 in Cervical Cancer and Its Clinical Significance / 肿瘤防治研究

Objective To investigate the role of PKCι, YAP1 and high-risk HPV infection in the local immune microenvironment of cervical cancer. Methods We chose 80 cases of normal tissue of the cervix (NCT), cervical low-grade squamous intraepithelial lesion (LSIL), cervical high-grade squamous intraepithelial lesion (HSIL) and early cervical squamous cell carcinoma (SCC) each. Four groups were collected.The infection rate of high-risk HPV in four groups was determined by real-time fluorescence PCR method. The expression levels of PKCι, YAP1, CD4 and CD8 in four groups were measured and correlated by IHC and clinicopathologic features were also analyzed. Results The differences of high-risk HPV infection rate and PKCι, YAP1, CD4, CD8 positive rate among groups of NCT, LSIL, HSIL and SCC had statistical significance (P < 0.05). The level of cervical lesions was positively associated with high-risk HPV infection and positive PKCι, YAP1, CD8 expression (P < 0.05), while negatively associated with positive CD4 expression (P < 0.05). HPV infection and positive PKCι, YAP1, CD8 expression were positively correlated with each other in SCC, while were all negatively correlated with positive CD4 expression(P < 0.05). The differences of HPV infection, PKCι, YAP1 and CD8 positive expression were significant in different levels of differentiation and vascular invasion of SCC (P < 0.05). Conclusion The patients with cervical lesions are often accompanied by high-risk HPV infection and abnormal expression of PKCι, YAP1, CD4 and CD8, which may have synergistic effects on each other, causing the local immunosuppression microenvironment of SCC. It provides a possible strategy for the study of pathogenesis, diagnosis and treatment of cervical cancer.

Research progress in pulp tissue regeneration strategy in microenvironment / 国际生物医学工程杂志

Pulpal and periapical diseases are the common diseases in human diseases. The traditional treatment method for these diseases is root canal treatment, which is to completely remove and control infection, repair or prevent periapical lesions by root canal mechanical preparation, chemical disinfection and filling. At present, although root canal treatments have a high success rate, there are still a series of problems. Dental pulp regeneration has attracted more and more attention from researchers in promoting the formation of pulp-like tissue in root canals. The ultimate goal of regenerative endodontics is to form a functional endodontic-dentin complex with inner blood vessels and nerves, outer layers of dentin cells arranged along the root canal wall, and new dentin formed by secreting matrix, so as to restore pulp vitality. Stem cells, scaffolds, biosignal molecules, and regenerative microenvironment are key tissue engineering factors that affect pulp regeneration. In this paper, the strategies and applications of pulp regeneration were reviewed around the above factors and clinical procedures.

Application of Bioprinting to Cancer Research

Three-dimensional (3D) printing is an additive manufacturing process by which precursor materials are deposited layer by layer to form complex 3D geometries from computer-aided designs, and bioprinting offers the ability to create 3D architecture living cells. Bioprinting methods have been developed rapidly pattern living cells, biological macromolecules, and biomaterials, and an advantage of the 3D microenviroment over traditional 2-dimensional cell culture is the ability to obtain more accurate and reliable data from model about tumor formation, progression, and response to anticancer therapies. This review focuses on recent advances in the use of biopriniting technologies for cancer research, bioprinting physiologically relevant testing platforms for anticancer drug development, and computational modeling for improvement bioprinting technique.

Preparation and characterization of multi-functional targeting nano-carrier based on pH-redox tumor microenvironment / 中国药科大学学报

In order to construct a novel multifunctional targeting nano-carrier based on pH-redox characteristics of tumor microenvironment,ketone bonds and disulfide bonds were bonded to the oligomeric hyaluronic acid (oHA) being sensitive to pH and the reduction environment.The chemical structure of oligomeric hyaluronic acid-8-mercaptomenthone 1,2-glycerolketal (oHMST) was characterized by 1H NMR,IR and ESI-MS.Curcuminloaded micelles were prepared by dialysis.The single factor investigation was carried out on the dosage form.Some properties,including particle size zeta potential,the morphology of micelles,and pH-sensitivity were studied.The materials were synthesized successfully.The micelles were spheric with a diameter of about 100 nm.The Zeta potential of the micelles was-(21.97 ± 1.08) mV.The in vitro test showed that oHMST carriers have good pH-sensitivity and redox-sensitivity.

The Present and Future of the Cancer Microenvironment Bioprinting

Cancer is the tissue complex consisted with heterogeneous cellular compositions, and microenvironmental cues. During the various stages of cancer initiation, development, and metastasis, cell–cell interactions as well as cell-extracellular matrix play major roles. Conventional cancer models both 2-dimensional and 3-dimensional (3D) present numerous limitations, which restrict their use as biomimetic models for drug screening and fundamental cancer biology studies. Recently, bioprinting biofabrication platform enables the creation of high-resolution 3D structures. Moreover this platform has been extensively used to model multiple organs and diseases, and this versatile technique has further found its creation of accurate models that figure out the complexity of the cancer microenvironment. In this review we will focus on cancer biology and limitations with current cancer models and we discuss vascular structures bioprinting that are critical to the construction of complex 3D cancer organoids. We finally conclude with current literature on bioprinting cancer models and propose future perspectives.

Advances in relationships among autophagy, interferons and tumor immunity microenviroment / 医学研究生学报

Autophagy , an evolutionarily conserved catabolic pathway , has the potential to influence the interfaces between cancer cells and the immune system and plays a dual role on regulation of cancer cells .Interferons, known for its effects on antiviral , do not only exert a suppressive influence on cancer cells .In this respect , there may be certain relationships between autophagy and in-terferons , and they may control the tumor microenviroment through interacting with each other .This review will present relationships between autophagy or interferons and tumor immunity microenviroment , and provides clues for anti tumor immunotherapy .

Protagonismo del sistema inmune en el microambiente de los tumores malignos de la mama / Role of the immune system in the microenvironment of malignant tumors of breast

Los avances recientes en la comprensión de los mecanismos génicos y moleculares del cáncer de mama han revelado que el sistema inmune protagoniza los eventos responsables del desarrollo y la progresión del tumor. Las células de la respuesta inmune innata y adaptativa, así como diversos mediadores solubles liberados por ellas, pueden establecer una respuesta antitumoral protectora o, por el contrario, inducir eventos de inflamación crónica que favorezcan la promoción y progresión de esta enfermedad. Esta dualidad, se protagoniza en el microambiente del tumor, el cual puede regular la carcinogénesis en dependencia del infiltrado de células inmunes que predominen. Esta revisión, pretende resumir los conocimientos actuales de la relación sistema inmune-cáncer de mama, enfatizando en las células inmunes del microambiente del tumor y su importancia como biomarcadores de evolución clínica de la enfermedad(AU)

The recent advances in the understanding of the genetic and molecular mechanisms of breast cancer have demonstrated that immune system plays important events responsible for the development and progression of the tumor. The cells of the innate and adaptive immune system, as well as diverse soluble mediators, may establish a protective anti-tumor response or, on the contrary, to induce events of chronic inflammation that favor promotion and progression of disease. This duality occurs in the tumor microenvironment, which can regulate the carcinogenesis depending on the predominant immune cells. This revision summarizes the current knowledge of the relationship between immune system - breast cancer, emphasizing in the immune cells of the tumor microenvironment and its importance as biological markers of the clinical evolution of the disease(AU)

Clinical Study on Live Lactobacillus Preparation in the Treatment of Postpartum Vagina Microenviroment Dysbiosis / 中国药师

Objective:To investigate the effect of live lactobacillus preparation in the treatment of postpartum vagina microenviro-ment dysbiosis. Methods:Totally 300 cases of postpartum women were selected in our hospital from February 2013 to November 2013, including those with normal delivery, cesarean section and vaginal delivery after lochia, and each was with 100 cases. The vaginal se-cretion was withdrawn from vagina and the microenvironment was assessed. The patients with dysbiosis were randomly divided into two groups, the observation group was treated with living lactobacillus preparation and the treatment group was without treatment. The effi-cacy and incidence of bacterial vaginosis(BV) were observed. Results:Totally 88 cases (29. 3%) occurred vaginal dysbiosis. There were significant differences in the dysbiosis incidence rate, pH, H2 O2 results, microscopic examination results and the distribution of flora between the two groups (P <0. 05). The effective rate of the observation group was 95. 5%, which was significantly higher than that of the control group (29. 5%). The incidence rate of BV was 4. 5% in the observation group, which was significantly lower than that in the control group [75%] (P<0. 05). Conclusion: The effect of the lactobacillus preparation in the treatment of postpartum vagina microenviroment dysbiosis is promising and safe.

Relationship of hypoxia-inducible factor-1 with the occurrence and development of tumor / 国际外科学杂志

Hypoxia-inducible factor-I is the critical factor existed in mammal and human cells which plays an important role in maintaining the oxygen balance. Many hypoxia-responding genes can be activated by H1F-1. So, the relationship between HIF-land matrix matalloproteinases/stromal-derived factor-I/special CXC chemokin receptor/angiogenesis related factors is the hot spot in research of the tumor invasion and me-tastasis.

Células madre: generalidades, eventos biológicos y moleculares / Stem cells: general aspects, biological and molecular events

Las autorrenovación y la diferenciación son características de las células madre que varían entre los diferentes tipos celulares según el tejido en el que se encuentren y el microambiente que las rodee. En ambos procesos intervienen inhibidores del ciclo celular, genes implicados en rearreglos cromosómicos, proteínas del desarrollo esencial y vías de señalización específicas. La autorrenovación está regulada por diversos mecanismos, entre los cuales se destacan las vías Wnt, Notch y Hedgehog, y los factores BMI-1, p16Ink4a, ARF, NANOG, OCT3/4, SOX2, HOXB4 y sus páralogos. Los adelantos en el conocimiento de la biología de las células madre y de los mecanismos moleculares que regulan la autorrenovación y la diferenciación han convertido a estas células en una importante promesa para la investigación básica y aplicada.

Self-renewal capacity and differentiation are features of stem cells that vary among the different cellular types according to the tissue in which they reside and the surroundingmicroenvironment. Cellular cycle inhibitors, genes implied in chromosomal rearrangements, essential development proteins and specific signaling pathways intervene in these processes. Self-renewal is regulated by different mechanisms, the most important of which are the Wnt, Notch and Hedgehogpathways, and the factors BMI-1, p16Ink4a, ARF, NANOG, OCT3/4, SOX2, HOXB4 and their paralogs. Advancesin the knowledge of stem cells biology and of the molecular mechanisms that influence their selfrenewal and differentiation have made these cellsan important promise for both basic and applied research.