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1 an antigen-specific nonresponsiveness (i.e. immunological tolerance).
2 tor Foxp3 have a pivotal role in maintaining immunological tolerance.
3 ant role in the induction and maintenance of immunological tolerance.
4 cells play an essential role in maintaining immunological tolerance.
5 controls B cell development, signaling, and immunological tolerance.
6 mbrane protein involved in the regulation of immunological tolerance.
7 c medullary epithelial cells, which promotes immunological tolerance.
8 ould be exploited to induce antigen-specific immunological tolerance.
9 response and is instrumental in maintaining immunological tolerance.
10 y T cells (Tregs) in the dominant control of immunological tolerance.
11 beta cells as well as the reestablishment of immunological tolerance.
12 e secretion in DCs and macrophages to induce immunological tolerance.
13 erentially contributes to the maintenance of immunological tolerance.
14 tory DCs and TGF-beta+ macrophages to induce immunological tolerance.
15 ing alone without exogenous insult can break immunological tolerance.
16 play an important role in the maintenance of immunological tolerance.
17 sponses and to facilitate the development of immunological tolerance.
18 Treg) are instrumental in the maintenance of immunological tolerance.
19 and suggests a role for plasmacytoid DC2 in immunological tolerance.
20 e in peripheral B-cell anergy, one aspect of immunological tolerance.
21 SK can be prevented by establishing specific immunological tolerance.
22 is a disorder of lymphocyte homeostasis and immunological tolerance.
23 s the others can lead to partial or complete immunological tolerance.
24 y, allograft rejection, and the induction of immunological tolerance.
25 apoptosis and may be critical for peripheral immunological tolerance.
26 tical for the development and maintenance of immunological tolerance.
27 +)FOXP3(+) regulatory T (Treg) cells control immunological tolerance.
28 switches from a type 2 inflammation towards immunological tolerance.
29 s conventional T cells and are essential for immunological tolerance.
30 side-effect burdens and potentially restore immunological tolerance.
31 antigens to naive T cells in ways that break immunological tolerance.
32 of germinal center B cells and drive loss of immunological tolerance.
33 A patients, presumably because of persisting immunological tolerance.
34 -27 is pivotal to safeguarding Treg-mediated immunological tolerance.
35 reg) cells) are instrumental in establishing immunological tolerance.
36 t the balance between effective immunity and immunological tolerance.
37 characterise and compare different states of immunological tolerance.
38 and are used by thymic epithelial cells for immunological tolerance.
39 outcomes through the induction of long-term immunological tolerance.
40 ssional antigen presenting cells to maintain immunological tolerance.
41 ional heterogeneity is a critical feature of immunological tolerance.
42 ponse that later subsided suggested acquired immunological tolerance.
43 regnancy is one of the strongest inducers of immunological tolerance.
44 ory T cells (Tregs) are a central element of immunological tolerance.
45 rine retrovirus, under conditions leading to immunological tolerance.
46 onses and, therefore, uniquely necessary for immunological tolerance.
47 lls are immunosuppressive cells that support immunological tolerance.
48 d rapamycin, not the free form, could induce immunological tolerance.
49 ecific for the 2F5 epitope is constrained by immunological tolerance.
50 organs that should be targeted to reinstate immunological tolerance.
51 pressing regulatory T (Treg) cells safeguard immunological tolerance.
52 of B cell activation and the maintenance of immunological tolerance.
53 eported to participate in the maintenance of immunological tolerance.
54 ct roles in the scenario by which it assures immunological tolerance.
55 protein expression and may help to maintain immunological tolerance.
56 and produce IL-10 are required for systemic immunological tolerance.
57 ral role in the induction and maintenance of immunological tolerance.
58 heral tissue Ag expression to prompt central immunological tolerance.
59 responses and allowing the establishment of immunological tolerance.
60 , but also their impact on the regulation of immunological tolerance.
61 proposed to participate in the regulation of immunological tolerance.
62 es against pathogens and tumours, as well as immunological tolerance.
64 t pests of agricultural crops have establish immunological tolerance against fungal infection caused
65 central role of T cells in the induction of immunological tolerance against i.v. Ags has been well d
67 ur findings suggest that a trade-off between immunological tolerance and embryo rejection accompanied
69 efore to design interventions that can break immunological tolerance and halt cancer progression, whe
70 vide an effective means of inducing longterm immunological tolerance and has been documented in a mon
73 th mild symptoms may harm the development of immunological tolerance and impose a burden on families
74 l drugs and therapeutic vaccines to overcome immunological tolerance and induce the recovery phenotyp
76 this feat is managed is key to understanding immunological tolerance and intervention in treating dis
77 as a central role in the dominant control of immunological tolerance and maintenance of immune homeos
78 elper cells and gut microbiota enforce local immunological tolerance and modulate extra-intestinal im
80 esponse, occupying a key role in maintaining immunological tolerance and present an attractive therap
81 rotective immune responses while maintaining immunological tolerance and preventing autoimmunity.
82 RE) gene is crucial for establishing central immunological tolerance and preventing autoimmunity.
83 die perinatally, the roles of Bax and Bak in immunological tolerance and prevention of autoimmune dis
84 nd an ancillary role for Bax in safeguarding immunological tolerance and prevention of autoimmune dis
85 discuss how metabolic workload can modulate immunological tolerance and review the molecular mechani
86 sing the crucial contributions of RA to both immunological tolerance and the elicitation of adaptive
87 is not known whether these serpins influence immunological tolerance and the risk for autoimmune dise
89 ective and safe treatment in LAR, increasing immunological tolerance, and reducing the clinical sympt
90 ) regulatory T cells (T(reg) cells) maintain immunological tolerance, and their deficiency results in
91 aches based on induction of antigen-specific immunological tolerance are being explored for treatment
92 t may also be important for the induction of immunological tolerance, as well as for the regulation o
93 likely depend, in part, on the induction of immunological tolerance, because the high levels of immu
94 that a reovirus strain associated with oral immunological tolerance blockade infects macrophages by
97 ells) are critically involved in maintaining immunological tolerance, but this potent suppression mus
98 opoietic chimerism results in donor-specific immunological tolerance by apoptosis-mediated deletion o
99 cting (Bcl2-interacting) mediator, maintains immunological tolerance by deleting autoreactive lymphoc
104 ive regulator of mucosal immunity, promoting immunological tolerance by preventing excessive T cell r
106 ognized as a spontaneously acquired state of immunological tolerance by the mother to her semi-alloge
108 vity, independent of their predicted role in immunological tolerance, by regulating tissue remodeling
110 our results suggest that neonatal and fetal immunological tolerance can be leveraged to improve post
112 ates and HIV-1 provides direct evidence that immunological tolerance can impair humoral responses to
113 paucity of T(R) cells and a fatal breach in immunological tolerance, causing highly aggressive multi
114 eg cells develop and how they participate in immunological tolerance, contrasting, when possible, iTr
115 he role of hepatitis B e-antigen in creating immunological tolerance during hepatitis B virus infecti
118 To analyze efficacy and better understand immunological tolerance, escape mechanisms, and side eff
120 resents an important mechanism of peripheral immunological tolerance for mature autoreactive B cells
121 and these "forbidden" B cells are culled by immunological tolerance from mature B-cell populations.
124 critically important for the maintenance of immunological tolerance, immune homeostasis, and prevent
125 ow 60 years since the first demonstration of immunological tolerance in animal models of transplantat
127 both natural and therapeutic acquisition of immunological tolerance in childhood will provide insigh
131 igand 1 (PD-L1) is crucial in regulating the immunological tolerance in non-small cell lung cancer (N
132 have been used in vivo to induce Ag-specific immunological tolerance in Th1 responses, including tiss
137 onditioning regimen (NMCR) aimed at inducing immunological tolerance, including splenectomy, whole bo
138 eral lymphocytes-a new approach to translate immunological tolerance into clinically applicable proto
143 ft is stably accepted, rejected, or achieves immunological tolerance is dependent on the frequency an
146 o far described that achieves organ-specific immunological tolerance is that which controls periphera
149 46a in Treg cells resulted in a breakdown of immunological tolerance manifested in fatal IFNgamma-dep
151 s for self-antigens and it has been proposed immunological tolerance may present a barrier to their p
152 an LPA-LPA(5) axis to serve as a peripheral immunological tolerance mechanism that restrains adaptiv
153 hough common genetic pathways affect general immunological tolerance mechanisms in autoimmunity, the
154 t that intranasal exposure to Ags results in immunological tolerance mediated by functionally impaire
158 results have implications for mechanisms of immunological tolerance operating in chronic HBV infecti
160 sponse may open the way for the induction of immunological tolerance (or unresponsiveness in the abse
161 recipient strains), resulting in "classical" immunological tolerance, or by bone marrow infusion to s
162 abetes involves a number of steps: defective immunological tolerance, priming of anti-islet autoimmun
166 e a better therapeutic strategy for inducing immunological tolerance than blocking the ligands for bo
167 New approaches to induce antigen-specific immunological tolerance that control both cellular and h
169 ied a new B-cell subset that is critical for immunological tolerance through interactions with Treg.
170 ogy of these cells, including maintenance of immunological tolerance to "self" and regulation of immu
171 y approaches may facilitate the induction of immunological tolerance to a donor organ or protect it l
172 the lungs for many weeks, does not result in immunological tolerance to a yeast challenge in adult mi
174 ions that the microbiota plays in regulating immunological tolerance to allergen exposure outside the
175 review is focused on approaches for inducing immunological tolerance to circumvent the immunogenicity
176 e rapamycin, are capable of inducing durable immunological tolerance to co-administered proteins that
182 transforming rat proto-oncogene, demonstrate immunological tolerance to neu that is similar to what i
183 e response to reovirus infection that blocks immunological tolerance to new food antigens.IMPORTANCEM
184 tion is associated with the blockade of oral immunological tolerance to newly introduced dietary anti
186 t and microbiota has required development of immunological tolerance to prevent ongoing inflammatory
188 dentifies T(reg) cells as vital mediators of immunological tolerance to self and Foxp3 as the mediato
195 To understand the mechanisms involved in immunological tolerance to skin-associated antigens, we
197 roclimate is critical for maternal and fetal immunological tolerance to sustain viable pregnancy, but
198 mbats autoimmunity or allergy by reinstating immunological tolerance to target antigens without compr
199 We examined, therefore, whether induction of immunological tolerance to the adhesion molecule that is
200 on their normal tissues do, in fact, exhibit immunological tolerance to the Ag, recapitulating the co
202 t tumors can be hindered by the induction of immunological tolerance to the target Ag as a result of
203 ed research in high school, experimenting on immunological tolerance to transplantation antigens.
204 to investigate the mechanisms that regulate immunological tolerance to tumor antigens and will facil
209 gp41-specific BnAb, 2F5, to demonstrate that immunological tolerance triggered by self-reactivity of
213 ation is also critical to the development of immunological tolerance via both deletional and regulato
214 cells play an essential role in maintaining immunological tolerance via their suppressive function o
215 atitis B surface antigen, indicating that no immunological tolerance was induced by prior fetal immun
217 s important for induction and maintenance of immunological tolerance, we engineered two retroviral co
218 stablished the role of regulatory T cells in immunological tolerance were recognized by this year's N
219 minated with Medawar's discovery of acquired immunological tolerance, which helped to explain the tra
220 rough BDCA2 is an effective method to induce immunological tolerance, which may be useful for treatin
221 ro with Ag/CTB conjugate induced Ag-specific immunological tolerance, which was further enhanced by a
222 early young adulthood, while an increase in immunological tolerance with aging suppresses disease on
223 rom a resistant strain coexist in a state of immunological tolerance with cells from a susceptible st
224 pressive macrophages as crucial mediators of immunological tolerance with the concomitant therapeutic
225 tory (Treg) cells have a fundamental role in immunological tolerance, with transcriptional and functi
226 ti-inflammatory fate is necessary to sustain immunological tolerance, yet it impairs immune protectio