138 results on '"Kubes, Paul"'
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2. Intravital imaging of three different microvascular beds in SARS-CoV-2–infected mice
3. Complex regulation of alarmins S100A8/A9 and secretion via gasdermin D pores exacerbates autoinflammation in familial Mediterranean fever
4. Gata6+ large peritoneal macrophages: an evolutionarily conserved sentinel and effector system for infection and injury
5. A monocyte–leptin–angiogenesis pathway critical for repair post-infection
6. SAT-539-YI Sustained macrophage alterations during injury regression beget increased susceptibility to infections
7. Immune mechanisms linking metabolic injury to inflammation and fibrosis in fatty liver disease – novel insights into cellular communication circuits
8. Re-programming mouse liver-resident invariant natural killer T cells for suppressing hepatic and diabetogenic autoimmunity
9. Gata6+ resident peritoneal macrophages promote the growth of liver metastasis
10. Exploratory Evaluation of the Relationship Between iNKT Cells and Systemic Cytokine Profiles of Critically Ill Patients with Neurological Injury
11. Patients with COVID-19: in the dark-NETs of neutrophils
12. A Functional Assessment of Fetal Liver and Monocyte-Derived Macrophages in the Lung Alveolar Environment
13. Intraperitoneal microbial contamination drives post-surgical peritoneal adhesions by mesothelial EGFR-signaling
14. Varied roles for LGR6 in the immune response
15. Author Correction: Platelet GPIbα is a mediator and potential interventional target for NASH and subsequent liver cancer
16. Supplementary video 4 from Imaging α-GalCer–Activated iNKT Cells in a Hepatic Metastatic Environment
17. Data from Imaging α-GalCer–Activated iNKT Cells in a Hepatic Metastatic Environment
18. Supplementary Video 1 from Imaging α-GalCer–Activated iNKT Cells in a Hepatic Metastatic Environment
19. Supplementary Video 2 from Imaging α-GalCer–Activated iNKT Cells in a Hepatic Metastatic Environment
20. Supplementary Figures and Video Legends from Imaging α-GalCer–Activated iNKT Cells in a Hepatic Metastatic Environment
21. Supplementary Video 3 from Imaging α-GalCer–Activated iNKT Cells in a Hepatic Metastatic Environment
22. Data from Preventing the Activation or Cycling of the Rap1 GTPase Alters Adhesion and Cytoskeletal Dynamics and Blocks Metastatic Melanoma Cell Extravasation into the Lungs
23. Supplementary Figure 2 from Neutrophils Promote Liver Metastasis via Mac-1–Mediated Interactions with Circulating Tumor Cells
24. Supplementary Figure 6 from Preventing the Activation or Cycling of the Rap1 GTPase Alters Adhesion and Cytoskeletal Dynamics and Blocks Metastatic Melanoma Cell Extravasation into the Lungs
25. Supplementary Figure Legends 1-6 from Preventing the Activation or Cycling of the Rap1 GTPase Alters Adhesion and Cytoskeletal Dynamics and Blocks Metastatic Melanoma Cell Extravasation into the Lungs
26. Supplementary Figure 3 from Preventing the Activation or Cycling of the Rap1 GTPase Alters Adhesion and Cytoskeletal Dynamics and Blocks Metastatic Melanoma Cell Extravasation into the Lungs
27. Supplementary Figure 1 from Preventing the Activation or Cycling of the Rap1 GTPase Alters Adhesion and Cytoskeletal Dynamics and Blocks Metastatic Melanoma Cell Extravasation into the Lungs
28. Supplementary Figure 1, Movie Legend from Neutrophils Promote Liver Metastasis via Mac-1–Mediated Interactions with Circulating Tumor Cells
29. Data from Neutrophils Promote Liver Metastasis via Mac-1–Mediated Interactions with Circulating Tumor Cells
30. Supplementary Figure 4 from Preventing the Activation or Cycling of the Rap1 GTPase Alters Adhesion and Cytoskeletal Dynamics and Blocks Metastatic Melanoma Cell Extravasation into the Lungs
31. Supplementary Figure 5 from Preventing the Activation or Cycling of the Rap1 GTPase Alters Adhesion and Cytoskeletal Dynamics and Blocks Metastatic Melanoma Cell Extravasation into the Lungs
32. Supplementary Movie 1 from Neutrophils Promote Liver Metastasis via Mac-1–Mediated Interactions with Circulating Tumor Cells
33. Supplementary Figure 2 from Preventing the Activation or Cycling of the Rap1 GTPase Alters Adhesion and Cytoskeletal Dynamics and Blocks Metastatic Melanoma Cell Extravasation into the Lungs
34. Hepatic C-X-C chemokine receptor type 6–expressing innate lymphocytes limit detrimental myeloid hyperactivation in acute liver injury
35. ICAMs are dispensable for influenza clearance and anti-viral humoral and cellular immunity
36. P-Selectin promotes SARS-CoV-2 interactions with platelets and the endothelium
37. Extracellular vesicles selectively mobilize splenic neutrophils
38. PNAG exopolysaccharide eradication gives neutrophils access toStaphylococcus aureusbiofilm infections
39. Neutrophils in host defense, healing, and hypersensitivity: Dynamic cells within a dynamic host
40. Neutrophils during SARS‐CoV ‐2 infection: Friend or foe?
41. Recruited monocytes repair infections
42. Neutrophils in homeostasis and tissue repair
43. NOX2: is the best defense a good offense?
44. Neutrophil phenotypes and functions in cancer: A consensus statement
45. Neutrophils during SARS‐CoV‐2 infection: Friend or foe?
46. Mitochondria in human neutrophils mediate killing of Staphylococcus aureus
47. A functionally distinct neutrophil landscape in severe COVID-19 reveals opportunities for adjunctive therapies
48. Combination of Sterile Injury and Microbial Contamination to Model Post-surgical Peritoneal Adhesions in Mice
49. Imaging α-GalCer–Activated iNKT Cells in a Hepatic Metastatic Environment
50. Imaging reveals novel innate immune responses in lung, liver, and beyond*
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