ライフサイエンスコーパス: immunopathogenic

1 -specific CD8+ CTL have been suggested to be immunopathogenic.

2 For example, emerging, highly immunopathogenic adenovirus serotypes might induce incre

3 re is one of convergence towards a map of an immunopathogenic aetiology of long COVID, though as yet

4 l particle-driven, HLA-associated disease of immunopathogenic aetiology.

5 g the complex cellular interplay controlling immunopathogenic and immunoregulatory responses is criti

6 Lastly, an integrative analysis of immunopathogenic-associated SNPs suggests a role for dis

7 y is needed to more precisely understand the immunopathogenic association between alopecia areata and

8 These data suggest a distinct genetic and immunopathogenic basis for AIH and PBC at the MIF locus.

9 n in AC22 mice, thereby providing us with an immunopathogenic basis for the fatal outcome of SARS-CoV

10 kers for peripheral demyelinating disorders, immunopathogenic biomarkers (such as the presence and ti

11 re profoundly inferior to Th1 cells in their immunopathogenic capacity.

12 in complete disease control and reduction of immunopathogenic cell populations and cytokines.

13 g neutrophils and macrophages, suggesting an immunopathogenic component to neurovirulence.

14 he possibility that LIGHT may play a role in immunopathogenic conditions that are associated with loc

15 Our results indicate that immunopathogenic consequences of nitric oxide during con

16 ignals transduced by HIV-1 envelope may have immunopathogenic consequences, including anergy, syncyti

17 sis (MS) holds great promise for deciphering immunopathogenic disease mechanisms.

18 ct the host, it centrally contributes to the immunopathogenic effects of HIV.

19 The immunopathogenic effects of myeloperoxidase and proteina

20 rotect, antibodies could potentially trigger immunopathogenic events in SARS-CoV-2-infected patients

21 ur knowledge regarding immune-protective and immunopathogenic events in severe acute respiratory synd

22 APCs) known to be critically involved in the immunopathogenic events leading to type 1 diabetes, we h

23 Relatively little is known about immunopathogenic events occurring during the acute phase

24 However, the immunopathogenic events occurring with coinfections of S

25 ome serves as a prototype model to study the immunopathogenic features of a human organ-specific auto

26 ctivation, and highlight its homeostatic and immunopathogenic functions.

27 Overall, MIS-C presents as an immunopathogenic illness(1) and appears distinct from Ka

28 25(+)Foxp3(+) regulatory T cells (Tregs) are immunopathogenic in cancers by impeding tumor-specific i

29 tion of normal mice with a foreign Ag can be immunopathogenic in certain transgenic recipients.

30 hepatocellular carcinoma, and virus-mediated immunopathogenic infections, affect billions of people w

31 Animal and clinical studies suggest that the immunopathogenic inflammatory condition of VVC is initia

32 ines of the Th17 lineage, and therefore, the immunopathogenic inflammatory response during VVC occurs

33 cting its vital function from the ravages of immunopathogenic injury.

34 ouse model of HSK is often used to delineate immunopathogenic mechanisms and bears many of the charac

35 an avenue to monitor MS and to characterize immunopathogenic mechanisms and therapeutic targets in t

36 Although the immunopathogenic mechanisms are currently unknown, virtu

37 plex array of multiphasic and multifactorial immunopathogenic mechanisms are involved in the establis

38 advances have increased understanding of the immunopathogenic mechanisms associated with the formatio

39 oimmunity and involvement of GAD antibodies; immunopathogenic mechanisms beyond antibodies, including

40 Immunopathogenic mechanisms have been implicated in schi

41 litis, tantalizing clues as to the potential immunopathogenic mechanisms in acute transverse myelitis

42 However, the understanding of immunopathogenic mechanisms in childhood-onset SLE is fa

43 A, will be useful for the fine dissection of immunopathogenic mechanisms in EBA and for the developme

44 In this study, we examined the immunopathogenic mechanisms in this model, including ide

45 The immunopathogenic mechanisms leading to psoriasis remain

46 ensive cardiac inflammation, suggesting that immunopathogenic mechanisms may promote cardiomyopathy.

47 The immunopathogenic mechanisms mediating inflammation in mu

48 e responses, which highlights differences in immunopathogenic mechanisms of disease among subtypes of

49 The immunopathogenic mechanisms of dry eye disease (DED), on

50 Thus, defining immunopathogenic mechanisms of HSK in the mouse model wi

51 The immunopathogenic mechanisms of juvenile rheumatoid arthr

52 At this time, better delineation of the immunopathogenic mechanisms of this spectrum of diseases

53 ease that serves as a model for studying the immunopathogenic mechanisms of uveitis and organ-specifi

54 Therefore, to better understand the immunopathogenic mechanisms through which an IFN-lambda(

55 rting the role of p38 MAPK in regulating key immunopathogenic mechanisms underlying autoimmune inflam

56 ished findings over the last 14 years on the immunopathogenic mechanisms underlying Pneumocystis pneu

57 types have provided better insights into the immunopathogenic mechanisms underlying severe asthma.

58 L-6 signalling has the potential to modulate immunopathogenic mechanisms upstream of autoantibody eff

59 the white matter to include a broad range of immunopathogenic mechanisms, axonal damage, and widespre

60 ic analyses revealed previously unrecognized immunopathogenic mechanisms, including increased CD28 an

61 and immune pathway analysis to elucidate the immunopathogenic mechanisms.

62 ), in which CD4(+) Th1 and/or Th17 cells are immunopathogenic, mimics various clinical features of no

63 n patients with TB reduces concentrations of immunopathogenic MMPs.

64 tis virus (WHV) represents the most valuable immunopathogenic model of hepatitis type B that, like in

65 ults also show that beta-gal can serve as an immunopathogenic neural autoantigen, and that T cells ra

66 y for short periods over 3 days, reduced the immunopathogenic neutrophil infiltration and hyphae.

67 e inception of both diseases, the subsequent immunopathogenic pathways seem to be different.

68 immune response could explain the increased immunopathogenic potential and associated increase in cl

69 in naive recipients and even exacerbated the immunopathogenic process in irradiated recipients.

70 rotein Hsp10 as a potential correlate to the immunopathogenic process in women with tubal factor infe

71 The role of Th17 lymphocytes in immunopathogenic processes has been well established, bu

72 molecular forms of antigen may initiate the immunopathogenic processes in the two forms of anti-GBM

73 complications, suggesting similar underlying immunopathogenic processes.

74 Th1 cells were highly immunopathogenic, producing disease in naive recipients

75 thepsin cleavage sites within mouse Tg, have immunopathogenic properties.

76 ated eyes, a complication possibly due to an immunopathogenic response to the RPE65 molecule.

77 arance, in part by stimulating inflammatory, immunopathogenic responses.

78 be a previously unrecognized Notch-mediated immunopathogenic role for stromal cell niches in seconda

79 Recent studies have proposed an immunopathogenic role for T cells that are activated thr

80 bserved in Clcn5 KO mice, suggesting a novel immunopathogenic role for the functional defects that re

81 with equine ocular components, suggesting an immunopathogenic role in leptospiral uveitis.

82 ndidate for the leishmaniases because of its immunopathogenic role in murine L. major infection.

83 Our studies indicate a prominent, immunopathogenic role of nitric oxide in promoting devel

84 -infiltrating CD4(+) T cells and may play an immunopathogenic role.

85 vironmental cells, this review proposes some immunopathogenic scenarios characterizing the principal

86 oth Tfh and Th17 cells from entering the non-immunopathogenic site, the gut, and retained these T eff

87 To date, human immunopathogenic studies of immune-related adverse event

88 e transfer of EAU to naive syngeneic mice by immunopathogenic T cells and suppressive effects of p28/

89 sely affecting the survival of SEA-reactive, immunopathogenic T lymphocytes.

90 mmune activation/suppression associated with immunopathogenic viruses such as hantaviruses; however,