139 results on '"Bodogai, Monica"'
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2. Replenishment of myeloid-derived suppressor cells (MDSCs) overrides CR-mediated protection against tumor growth in a murine model of triple-negative breast cancer
3. Cancer co-opts differentiation of B-cell precursors into macrophage-like cells
4. Daily caloric restriction limits tumor growth more effectively than caloric cycling regardless of dietary composition
5. Therapeutic B-cell depletion reverses progression of Alzheimer’s disease
6. The ketone metabolite β-hydroxybutyrate blocks NLRP3 inflammasome–mediated inflammatory disease
7. Impaired IL-17 and cytotolytic responses to influenza vaccine antigens in aging nonhuman primates
8. Cancer promotes immune escape via transdifferentiating B cells into macrophage-like cells
9. Data from Tumor-Derived Thymic Stromal Lymphopoietin Expands Bone Marrow B-cell Precursors in Circulation to Support Metastasis
10. Supplementary Figs 1-7 from Tumor-Derived Thymic Stromal Lymphopoietin Expands Bone Marrow B-cell Precursors in Circulation to Support Metastasis
11. Supplementary Table 1-5 from Tumor-Derived Thymic Stromal Lymphopoietin Expands Bone Marrow B-cell Precursors in Circulation to Support Metastasis
12. Supplementary Figure 5 from Tumor-Evoked Regulatory B Cells Promote Breast Cancer Metastasis by Converting Resting CD4+ T Cells to T-Regulatory Cells
13. Supplementary Figure S5 from Immunosuppressive and Prometastatic Functions of Myeloid-Derived Suppressive Cells Rely upon Education from Tumor-Associated B Cells
14. Supplementary Methods and References from Immunosuppressive and Prometastatic Functions of Myeloid-Derived Suppressive Cells Rely upon Education from Tumor-Associated B Cells
15. Supplementary Figure 2 from Tumor-Evoked Regulatory B Cells Promote Breast Cancer Metastasis by Converting Resting CD4+ T Cells to T-Regulatory Cells
16. Supplementary Figure Legends from Immunosuppressive and Prometastatic Functions of Myeloid-Derived Suppressive Cells Rely upon Education from Tumor-Associated B Cells
17. Data from Tumor-Evoked Regulatory B Cells Promote Breast Cancer Metastasis by Converting Resting CD4+ T Cells to T-Regulatory Cells
18. Supplementary Figure Legends 1-10 from Breast Cancer Lung Metastasis Requires Expression of Chemokine Receptor CCR4 and Regulatory T Cells
19. Supplementary Figure 7 from Tumor-Evoked Regulatory B Cells Promote Breast Cancer Metastasis by Converting Resting CD4+ T Cells to T-Regulatory Cells
20. Supplementary Figure 8 from Tumor-Evoked Regulatory B Cells Promote Breast Cancer Metastasis by Converting Resting CD4+ T Cells to T-Regulatory Cells
21. Supplementary Figure 2 from Anti-CD20 Antibody Promotes Cancer Escape via Enrichment of Tumor-Evoked Regulatory B Cells Expressing Low Levels of CD20 and CD137L
22. Supplementary Figure 3 from Anti-CD20 Antibody Promotes Cancer Escape via Enrichment of Tumor-Evoked Regulatory B Cells Expressing Low Levels of CD20 and CD137L
23. Supplementary Figure 5 from Anti-CD20 Antibody Promotes Cancer Escape via Enrichment of Tumor-Evoked Regulatory B Cells Expressing Low Levels of CD20 and CD137L
24. Supplementary Figure 3 from Tumor-Evoked Regulatory B Cells Promote Breast Cancer Metastasis by Converting Resting CD4+ T Cells to T-Regulatory Cells
25. Data from Immunosuppressive and Prometastatic Functions of Myeloid-Derived Suppressive Cells Rely upon Education from Tumor-Associated B Cells
26. Supplementary Figure 1 from Tumor-Evoked Regulatory B Cells Promote Breast Cancer Metastasis by Converting Resting CD4+ T Cells to T-Regulatory Cells
27. Data from Anti-CD20 Antibody Promotes Cancer Escape via Enrichment of Tumor-Evoked Regulatory B Cells Expressing Low Levels of CD20 and CD137L
28. Data from Breast Cancer Lung Metastasis Requires Expression of Chemokine Receptor CCR4 and Regulatory T Cells
29. Supplementary Figures 1-10 from Breast Cancer Lung Metastasis Requires Expression of Chemokine Receptor CCR4 and Regulatory T Cells
30. Supplementary Figure 4 from Anti-CD20 Antibody Promotes Cancer Escape via Enrichment of Tumor-Evoked Regulatory B Cells Expressing Low Levels of CD20 and CD137L
31. Supplementary Figure 4 from Tumor-Evoked Regulatory B Cells Promote Breast Cancer Metastasis by Converting Resting CD4+ T Cells to T-Regulatory Cells
32. Supplementary Figure 6 from Anti-CD20 Antibody Promotes Cancer Escape via Enrichment of Tumor-Evoked Regulatory B Cells Expressing Low Levels of CD20 and CD137L
33. Supplementary Figure Legend from Anti-CD20 Antibody Promotes Cancer Escape via Enrichment of Tumor-Evoked Regulatory B Cells Expressing Low Levels of CD20 and CD137L
34. Supplementary Figure 6 from Tumor-Evoked Regulatory B Cells Promote Breast Cancer Metastasis by Converting Resting CD4+ T Cells to T-Regulatory Cells
35. Supplementary Methods, Figure Legends 1-8 from Tumor-Evoked Regulatory B Cells Promote Breast Cancer Metastasis by Converting Resting CD4+ T Cells to T-Regulatory Cells
36. Supplementary Figure 1 from Anti-CD20 Antibody Promotes Cancer Escape via Enrichment of Tumor-Evoked Regulatory B Cells Expressing Low Levels of CD20 and CD137L
37. A surprising pathogenic role of B cells in mice with Alzheimer’s disease
38. Cancer coopts differentiation of B-cell precursors into macrophages
39. A vapBC-type toxin–antitoxin module of Sinorhizobium meliloti influences symbiotic efficiency and nodule senescence of Medicago sativa
40. 4:10 Cycles of Very Low Calories Protect Against Tumor Xenografts, but Not Metastases in the Absence of Chemotherapy
41. Abstract 4499: Cancer targets early B-cell precursors to generate metastasis-promoting Bregs by promoting their premature emigration from the bone marrow and expansion in the circulation
42. Tumor-Derived Thymic Stromal Lymphopoietin Expands Bone Marrow B-cell Precursors in Circulation to Support Metastasis
43. Age associated insulin resistance is controlled by microbiota through a monocyte-B1a cell pathway
44. Commensal bacteria contribute to insulin resistance in aging by activating innate B1a cells
45. Impact of ageing on plasma extracellular vesicle concentration, protein profile and internalisation by leukocytes
46. SCAMP4 enhances the senescent cell secretome
47. Cancer Immunotherapy: Theory and Application
48. Altered Extracellular Vesicle Concentration, Cargo, and Function in Diabetes
49. Identification of senescent cell surface targetable protein DPP4
50. Age-Related Changes in Plasma Extracellular Vesicle Characteristics and Internalization by Leukocytes
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