Search

Your search keyword '"Luis J. Sigal"' showing total 93 results

Search Constraints

Start Over You searched for: Author "Luis J. Sigal" Remove constraint Author: "Luis J. Sigal" Publication Year Range Last 50 years Remove constraint Publication Year Range: Last 50 years
93 results on '"Luis J. Sigal"'

Search Results

1. Dietary L-Tryptophan consumption determines the number of colonic regulatory T cells and susceptibility to colitis via GPR15

2. Design and preclinical evaluation of a universal SARS-CoV-2 mRNA vaccine

3. Multiple and Consecutive Genome Editing Using i-GONAD and Breeding Enrichment Facilitates the Production of Genetically Modified Mice

4. IFN-β Acts on Monocytes to Ameliorate CNS Autoimmunity by Inhibiting Proinflammatory Cross-Talk Between Monocytes and Th Cells

5. Langerhans Cells Orchestrate the Protective Antiviral Innate Immune Response in the Lymph Node

6. Migratory Dendritic Cells, Group 1 Innate Lymphoid Cells, and Inflammatory Monocytes Collaborate to Recruit NK Cells to the Virus-Infected Lymph Node

9. Supplementary Figures S1-S3 from Targeted Blockade of JAK/STAT3 Signaling Inhibits Ovarian Carcinoma Growth

10. Data from Targeted Blockade of JAK/STAT3 Signaling Inhibits Ovarian Carcinoma Growth

11. Resistance To Poxvirus Lethality Does Not Require the Necroptosis Proteins RIPK3 or MLKL

12. Interferon partly dictates a divergent transcriptional response in poxvirus-infected and bystander inflammatory monocytes

13. α2β1 Integrin Is Required for Optimal NK Cell Proliferation during Viral Infection but Not for Acquisition of Effector Functions or NK Cell–Mediated Virus Control

14. Declined miR‐181a‐5p expression is associated with impaired natural killer cell development and function with aging

15. Viral infection modulates Qa-1b in infected and bystander cells to properly direct NK cell killing

16. Lipid-nanoparticle-encapsulated mRNA vaccines induce protective memory CD8 T cells against a lethal viral infection

17. IFN-β Acts on Monocytes to Ameliorate CNS Autoimmunity by Inhibiting Proinflammatory Cross-Talk Between Monocytes and Th Cells

18. Resistance to lethal ectromelia virus infection requires Type I interferon receptor in natural killer cells and monocytes but not in adaptive immune or parenchymal cells

19. Defective early innate immune response to ectromelia virus in the draining lymph nodes of aged mice due to impaired dendritic cell accumulation

20. Resistance to ectromelia virus infection requires cGAS in bone marrow-derived cells which can be bypassed with cGAMP therapy

21. Migratory Dendritic Cells, Group 1 Innate Lymphoid Cells, and Inflammatory Monocytes Collaborate to Recruit NK Cells to the Virus-Infected Lymph Node

22. Cutting Edge: Protection by Antiviral Memory CD8 T Cells Requires Rapidly Produced Antigen in Large Amounts

23. Dysregulated anti-viral innate immune cascade during aging

24. Loss of Resistance to Mousepox during Chronic Lymphocytic Choriomeningitis Virus Infection Is Associated with Impaired T-Cell Responses and Can Be Rescued by Immunization

25. Chronic Lymphocytic Choriomeningitis Infection Causes Susceptibility to Mousepox and Impairs Natural Killer Cell Maturation and Function

26. STING Sensing of Murine Cytomegalovirus Alters the Tumor Microenvironment to Promote Antitumor Immunity

28. A virus-encoded type I interferon decoy receptor enables evasion of host immunity through cell-surface binding

29. DAI Senses Influenza A Virus Genomic RNA and Activates RIPK3-Dependent Cell Death

30. The natural killer cell dysfunction of aged mice is due to the bone marrow stroma and is not restored by <scp>IL</scp> ‐15/ <scp>IL</scp> ‐15Rα treatment

31. Crosstalk between the Type 1 Interferon and Nuclear Factor Kappa B Pathways Confers Resistance to a Lethal Virus Infection

32. The Pathogenesis and Immunobiology of Mousepox

33. Activation of CD8 T Lymphocytes during Viral Infections

34. The Pathogenesis and Immunobiology of Mousepox

35. Gamma Interferon and Perforin Control the Strength, but Not the Hierarchy, of Immunodominance of an Antiviral CD8 + T Cell Response

36. Age-dependent susceptibility to a viral disease due to decreased natural killer cell numbers and trafficking

37. Langerhans cells are required for the priming and induction of an optimal immune response against an acute DNA virus infection

38. Defining the mechanisms responsible for the induction of cytotoxic CD4 T cell responses during viral infection

39. The Amino Acid Sequences Flanking an Antigenic Determinant Can Strongly Affect MHC Class I Cross-Presentation without Altering Direct Presentation

40. Enhanced NK-cell development and function in BCAP-deficient mice

41. The orthopoxvirus type I IFN binding protein is essential for virulence and an effective target for vaccination

42. Sequential Activation of Two Pathogen-Sensing Pathways Required for Type I Interferon Expression and Resistance to an Acute DNA Virus Infection

43. Direct CD28 Costimulation Is Required for CD8+ T Cell-Mediated Resistance to an Acute Viral Disease in a Natural Host

44. Immunization with a single extracellular enveloped virus protein produced in bacteria provides partial protection from a lethal orthopoxvirus infection in a natural host

45. Memory cells sound the alarm

46. Important Role of Cathepsin S in Generating Peptides for TAP-Independent MHC Class I Crosspresentation In Vivo

47. Cutting Edge: Efficient MHC Class I Cross-Presentation during Early Vaccinia Infection Requires the Transfer of Proteasomal Intermediates between Antigen Donor and Presenting Cells

48. Poliovirus pathogenesis in a new poliovirus receptor transgenic mouse model: age-dependent paralysis and a mucosal route of infection

49. CD4+ T cell help is dispensable for protective CD8+ T cell memory against mousepox virus following vaccinia virus immunization

50. Impact of Distinct Poxvirus Infections on the Specificities and Functionalities of CD4+ T Cell Responses

Catalog

Books, media, physical & digital resources