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1
Mesenchymal stem cells have the capacity to maintain
immune
homeostasis
and prevent autoimmunity.
2
Tregs prevent autoimmune disease, maintain
immune
homeostasis
and modulate protective responses against infection.
3
Disassembly and phagocytic removal of dying cells is critical to maintain
immune
homeostasis
.
4
Regulatory T (Treg) cells are important in maintaining self-tolerance and
immune
homeostasis
.
5
Our results may emphasize the importance of retroelement-containing transcripts in maintaining host
immune
homeostasis
.
6
Human regulatory T (T reg) cells are essential for
immune
homeostasis
.
7
In addition, B-cells can also maintain
immune
homeostasis
by expressing PD-L1 and suppressing T-cell activity.
8
The maintenance of
immune
homeostasis
requires regulatory T cells (Treg cells).
9
Regulatory T cells (Tregs) maintain
immune
homeostasis
by limiting inflammatory responses.
10
By controlling DC activation, cytokines regulate
immune
homeostasis
and the balance between tolerance and immunity.
11
Thus, the impact of viral clearance on restoring
immune
homeostasis
is being investigated by many groups.
12
Regulatory T cells (Treg) typically restrain overt inflammatory responses and maintain intestinal
immune
homeostasis
.
13
Intestinal DCs orchestrate gut
immune
homeostasis
by dampening proinflammatory T-cell responses and inducing anti-inflammatory IgA responses.
14
Yet, the interaction of colonizing bacterial organisms with the developing human intestine favors inflammation over
immune
homeostasis
.
15
Accumulating evidence on the immunomodulatory roles of dsRNAs warrants a reconsideration of various models of
immune
homeostasis
.
16
MΦ comprise a heterogeneous population of cells, which contribute to host defense and maintenance of
immune
homeostasis
.
immune
homeostasis
immune