ライフサイエンスコーパス: immune factor

1 eals, central nervous system activation, and immune factors.

2 imiting permissive macrophages and on innate immune factors.

3 DefA) coding region, one of the major insect immune factors.

4 ion does not increase milk concentrations of immune factors.

5 ssociated with higher concentrations of milk immune factors.

6 milk but also by increasing delivery of milk immune factors.

7 eases milk concentrations of certain soluble immune factors.

8 nguishable by biological correlates, such as immune factors.

9 n cancer immunotherapy by integrating type 2 immune factors.

10 NCA IgG accompanied by different synergistic immune factors.

11 iciency (Imd), JAK/STAT, and Leu-rich repeat immune factors.

12 ost messenger RNAs, including those encoding immune factors(1-3); however, the direct cellular target

13 aken together, our findings suggest maternal immune factors actively contribute to shape the suscepti

14 However, it is not clear how immune factors affect ER stress and therefore disease sy

15 platform to study how microenvironmental and immune factors affect OS tumor progression.

16 py; and, 4) investigations of immune and non-immune factors affecting late cardiac allograft outcomes

17 ed ocular cellular, humoral, and nonspecific immune factors allowing viral DNA to persist for slightl

18 zed, with genetic as well as innate/adaptive immune factors also playing a role.

19 mechanisms for bacterial resistance to host immune factors and antibiotics.

20 llectively, these findings suggest that host immune factors and bacterial persisters may directly int

21 We compared soluble mucosal immune factors and cervical mononuclear cells during hor

22 Among the unique immune factors and embryonic genes associated with cardi

23 NEC with regard to the involvement of innate immune factors and histopathological changes as compared

24 dding IL-25 to PN would restore these innate immune factors and maintain barrier function.

25 ations and to help elucidate other potential immune factors and mechanisms that may underlie HNSCC ri

26 to study possible interactions between HMOs, immune factors and milk microbiota due to the infectious

27 e decreased levels of circulating pro-ageing immune factors and restoration of the ageing peripheral

28 Soluble immune factors and the absolute abundance of bacterial t

29 ed on identification of relevant genetic and immune factors and understanding serum and hepatic facto

30 ficiency virus (HIV)-endothelial cells, host immune factors, and cytokines are described.

31 d with a local deficiency of multiple innate immune factors, and this deficiency could predispose ind

32 MV likely depends on a combination of innate immune factors, antibodies, and T-cell responses.

33 Our results suggest that host immune factors are able to affect bacterial disseminatio

34 ctive, those targeting interferons and other immune factors are associated with adverse coronavirus d

35 thies are changing, as the various toxic and immune factors are modified by new treatment strategies.

36 Immune factors are required for muscle regeneration, but

37 that the mechanism of resistance may involve immune factors, as strains subjected to whole-body irrad

38 Here, we analyzed the immune factors associated with changes in proviral HIV-1

39 ctivities were measured to examine potential immune factors associated with differences in susceptibi

40 Future studies will identify the immune factors associated with protection in those parti

41 re, we analysed pre- and early post-exposure immune factors associated with resisting SARS-CoV-2 infe

42 Comprehensive analyses of host, viral, and immune factors associated with severe respiratory syncyt

43 ost defense against mucosal candidiasis, the immune factors associated with susceptibility to OPC in

44 ere were no significant treatment effects on immune factors at 3 mo.

45 during systemic spread and killing by innate immune factors at intestinal mucosal surfaces.

46 immune responses by interacting with the key immune factor AtHIR4, thereby promoting S. sclerotiorum

47 ostrum contains the highest concentration of immune factors, being the most potent immune booster kno

48 ts were found to produce a variety of potent immune factors, both at the transcript and protein level

49 ranslational efficiency, and help evade host immune factors by hijacking cellular machinery during re

50 tes were assessed by flow cytometry, soluble immune factors by multiplex immunoassay, neutrophils and

51 Normally protective maternal immune factors can adversely affect the offspring in the

52 ta establish a mechanism by which peripheral immune factors can affect central nervous system functio

53 To determine whether immune factors can effect amyloid removal, we developed

54 attempt to delineate the mechanisms by which immune factors can lead to the loss of connective tissue

55 indings, optimization of both mechanical and immune factors can tune epithelial clustering responses,

56 y (defined as an elevated Na:K) and baseline immune factor concentrations were controlled for, there

57 we have an incomplete understanding of what immune factors contribute to a protective immune respons

58 V-68) is an important tool for understanding immune factors contributing to gammaHV control; however,

59 d the elucidation of genetic, immune and non-immune factors contributing to the development of this i

60 Multiple immune factors control host responses to Mycobacterium t

61 e, neutrophil extracellular traps, and other immune factors cooperate to initiate and propagate VT.

62 he semen of 49 ZIKV-infected men to identify immune factors correlating with long-term ZIKV shedding

63 cell population, phenotype and production of immune factors, cytokines and chemokines.

64 However, immune factors determining whether individuals control i

65 transcription factors Dorsal/Dorsal-related immune factor (Dif), was first identified in Drosophila.

66 tion factors, Dorsal (Dl) and Dorsal-related immune factor (Dif).

67 t advances indicate that innate and adaptive immune factors drive the development of diverse subsets

68 comprehensive understanding of allergic and immune factors driving distinct neutrophil states and th

69 mans, less is understood regarding lung host immune factors during early stages of fungal infection.

70 responses are tightly controlled by various immune factors during infection, and protozoan parasites

71 Crucial immune factors emerge that affect macrophage populations

72 lated to lipid metabolism, tyrosine kinases, immune factors, extracellular matrix components, steroid

73 k between a T2S system and the modulation of immune factors following intracellular infection.

74 ely ascertain the overall affinity of a host immune factor for a given microbe.

75 here three or more studies analysed the same immune factor for the same cancer type.

76 coring the dependence on different mammalian immune factors for control of mucosal versus systemic Ca

77 we performed unbiased profiling of secreted immune factors from human chorionic villi isolated from

78 n is marked by the release of mRNAs encoding immune factors from the nucleus.

79 tion for transfusion-dependent patients, but immune factors governing risk for alloimmunization are u

80 interplay between vaginal microbes and host immune factors has yet to be clearly elucidated.

81 ve viral strain, while others suggested host immune factors have a key role.

82 Host-related immune factors have been implicated in the development a

83 Host immune factors have been shown to contribute to these ag

84 By investigating the effects that host immune factors have on AAV infection, more efficient vec

85 discovery of upstream regulators of critical immune factors-IL2RA, IL-2 and CTLA4-in primary human T

86 vent clinical uveitis, suggesting that other immune factors in addition to TLR9 may contribute to int

87 Likewise, levels of TGF-beta1 or other immune factors in brains of AD patients may influence th

88 Maternal vaccination to induce anti-HIV immune factors in breast milk is a potential interventio

89 This suggests that immune factors in breast milk of HIV-1-infected mothers

90 y factor analysis reduced 41 analytes into 5 immune factors in each experimental condition, and their

91 ly enhance the expression of these intrinsic immune factors in HIV-1-infected individuals.

92 cle reviews current knowledge of the role of immune factors in inflammatory bowel disease and the pot

93 Conversely, new findings implicate non-immune factors in inflammatory myopathy pathogenesis.

94 de higher levels of antiapoptotic and innate immune factors in mature neurons.

95 ecome infected, raising the possibility that immune factors in milk inhibit mucosal transmission of H

96 ral SIV host species, such as innate SIV/HIV immune factors in milk, as a means of naturally preventi

97 esting the existence of naturally protective immune factors in milk.

98 To determine the role of viral and immune factors in monocyte penetration across the BBB, H

99 , we characterize the vaginal microbiota and immune factors in pregnant African women who were HIV-un

100 To explore the host immune factors in selection of the emergence of this new

101 r example, proteins shield spirochaetes from immune factors in the bloodmeal and facilitate the trans

102 milk exposure, raising the possibility that immune factors in the breast milk confer protection to t

103 he transmission rate is low, suggesting that immune factors in the breast milk of HIV-1-infected moth

104 Additional support for the role of altered immune factors in the etiology of schizophrenia comes fr

105 against the HMW1 and HMW2 adhesins and other immune factors in the lower respiratory tracts of patien

106 nalysed the genetic, microenvironmental, and immune factors in tumours derived from a transgenic brea

107 y inactive cells, and direct effects of host immune factors (in the absence of immune cells) on persi

108 ts in bovine cells established that critical immune factors including IFNAR2 and IL2RB are transcript

109 om inevitable destruction by cellular innate immune factors including the APOBEC3 DNA mutating enzyme

110 transcriptome detects enrichment for innate immune factors, including the Spatzle (Spz) family of se

111 Resolving how immune factors influence the emergence of novel viral va

112 hemotherapy, it is unknown how or which host immune factors influence the long-term remission of this

113 ins and the production of viral and cellular immune factors injurious to human neurons.

114 , our understanding of the functions of many immune factors involved in fighting infection is limited

115 Investigations of the immune factors involved in idiopathic nephrotic syndrome

116 rus-induced increased expression of numerous immune factors involved in myeloid-derived suppressor ce

117 The review discusses immune factors involved in the response to vascular inju

118 levant in light of the increasing reports of immune factors involved in vascular disease and interven

119 cted proviral nature of the classical innate immune factor, IRF-3, during chronic virus infection.IMP

120 bits innate immune responses by targeting an immune factor, IRF7.

121 ly and genotypically distinct cohort, a host immune factor is highly associated with restriction of v

122 ssion is the greatest risk factor, recipient immune factors likely also play a role in the pathogenes

123 Although a variety of downstream immune factors likely regulate inhibitor formation, the

124 Complex host immune factors may also influence H3N2 VE, including ear

125 udy aimed to characterize whether peripheral immune factors measured in blood samples collected in an

126 as previously unknown whether injury-induced immune factors mediate this process.

127 This loss of diversity was not due to immune factors, microbiota, or exclusive genetic drift.

128 lso regulated the expression of other innate immune factors (mucins, chemokines) that affected E. col

129 virus infection, additional PARPs or innate immune factors must contribute to the extreme attenuatio

130 tant protein A (SP-A) as an important innate immune factor of the lungs, amniotic fluid, and the vagi

131 To examine the effect of individual host immune factors on MeV load dynamics further, we develope

132 To identify immune factors present during the acute rash phase of me

133 he setting of chronic allergic inflammation, immune factors prime sensory neurons, causing pathologic

134 tion of a long-term association between host immune factors, 'red complex' pathogens and periodontal

135 s prompted efforts to unravel immune and non-immune factors regulating the responses to ICT.

136 annose-binding lectin (MBL) is a circulating immune factor responsible for opsonization of pathogens

137 Here, we review current understanding of the immune factors responsible for fetomaternal tolerance du

138 Despite extensive studies, the immune factors responsible for such exclusive control re

139 A model based on these two immune factors strongly predicted TMB power in a given c

140 These results imply the importance of immune factors such as cytokines and autoantibodies in d

141 erium must circumvent killing by host innate immune factors, such as cationic antimicrobial peptides

142 Interestingly, we found that innate immune factors, such as natural killer cells, plasmacyto

143 Dynamic lactylation of immune factors suppresses immunity, a feature we show to

144 Expression of 15 immune factors (TGFbeta, IL-1beta, IL-4, IL-6, IL-10, GM

145 ine colony stimulating factor 2 (CSF2) as an immune factor that is increased by cocaine in a gut micr

146 Apobec3/Rfv3 is an innate immune factor that promotes the neutralizing Ab response

147 rtite motif protein 69 (Trim69) as an innate immune factor that remodels MTs, leading to inhibition o

148 ken together, this work identifies an innate immune factor that represents a novel gut-brain signalin

149 ain-containing protein 1 (SAMHD1), an innate immune factor that suppresses HIV replication, was ident

150 ompletely understood, particularly regarding immune factors that are harmful rather than protective t

151 asure the concentrations of innate pulmonary immune factors that are important in lung defense agains

152 surface recognition ligands as well as host immune factors that bind sialic acid.

153 valuated for its ability to elicit antiviral immune factors that can prevent HCMV-associated disease.

154 des a foundation for identifying genetic and immune factors that contribute to long-term neurobehavio

155 in mice, we discuss the innate and adaptive immune factors that control CHIKV dissemination and clea

156 The immune factors that control DEN infection or contribute

157 hrough hormonal, microbiome, epigenetic, and immune factors that cross the placenta and fetal blood-b

158 atients treated with anti-PD1 identified key immune factors that determine TMB power across 14 differ

159 The chemokines CCL21 and CXCL13 are immune factors that dictate homing and motility of lymph

160 However, the immune factors that drive the formation of a protective

161 nomodulators is highlighted by the number of immune factors that have been associated with increased

162 This model reveals important immune factors that influence susceptibility to infectio

163 treatment, it is vital that we identify the immune factors that limit virus spread in the heart and

164 odel system, we aimed to identify initiating immune factors that may govern early anti-HOD alloantibo

165 s in understanding early immune events, oral immune factors that modulate HIV/SIV susceptibility (inc

166 Here, we review pre- and postpartum maternal immune factors that protect against infectious agents in

167 f enteric viruses, little is known about the immune factors that restrict persistent enteric infectio

168 or to the MFA, since there may be additional immune factors that synergize the transmission-blocking

169 nsplant microenvironment as well as the host immune factors that underlie the pathophysiology of poly

170 Among host immune factors, the cytokine TNF-alpha has previously be

171 Enhancement of these protective immune factors through maternal vaccination will be a cr

172 at support the transfer of key nutrients and immune factors through their parent's own milk.

173 AAV vectors encounter a wide variety of host immune factors throughout the body, which can impede eff

174 The increasing need to identify immune factors to devise host-targeted therapies against

175 both specific neuronal subsets and secreted immune factors to itch induction and the associated infl

176 Much work has focused on the contribution of immune factors to the pathogenesis of hemorrhage, but ho

177 been used to define the specificity of host immune factors toward microbes in a high throughput mann

178 e must overcome numerous innate and adaptive immune factors, traverse the genital epithelium, and est

179 Here, we demonstrate that the intrinsic immune factor TRIM5alpha senses and restricts LINE-1 ret

180 kely to be heterogenous and may involve host immune factors, viral factors, or both.

181 ions with viral concentration and individual immune factors, we estimated the critical exposure durat

182 Additional transfusion and patient immune factors were examined.

183 Cytokines, chemokines, and other soluble immune factors were measured in longitudinal samples fro

184 pylori, Streptococcus pneumoniae, and innate immune factors were not lower among HIV-infected women t

185 We identified a set of immune factors which are ubiquitously correlated with ot

186 some nutrients can modulate inflammatory and immune factors, which are altered in women with endometr

187 of interferon regulatory factor 7 (IRF7), an immune factor with a pivotal role in viral pathogenesis.

188 sum, Sec13 regulates specific expression of immune factors with key functions in inflammation.

189 n the virus, intestinal microbiota, and host immune factors, with metabolites serving as a key mediat