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Query: UNIPROT:P10145 (
IL-8
)
23,849
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
In human tuberculosis (TB) neutrophils represent the most commonly infected phagocyte but their role in protection and pathology is highly contradictory. Moreover, a subset of low-density neutrophils (LDNs) has been identified in TB, but their functions remain unclear. Here, we have analyzed total neutrophils and their low-density and normal-density (NDNs) subsets in patients with active TB disease, in terms of frequency, phenotype, functional features, and gene expression signature. Full-blood counts from Healthy Donors (H.D.), Latent TB infected, active TB, and cured TB patients were performed. Frequency, phenotype, burst activity, and suppressor T cell activity of the two different subsets were assessed by flow cytometry while NETosis and phagocytosis were evaluated by confocal microscopy. Expression analysis was performed by using the semi-quantitative RT-PCR array technology. Elevated numbers of total neutrophils and a high neutrophil/lymphocyte ratio distinguished patients with active TB from all the other groups. PBMCs of patients with active TB disease contained elevated percentages of LDNs compared with those of H.D., with an increased expression of CD66b, CD33,
CD15
, and CD16 compared to NDNs. Transcriptomic analysis of LDNs and NDNs purified from the peripheral blood of TB patients identified 12 genes differentially expressed:
CCL5, CCR5, CD4, IL10, LYZ
, and
STAT4
were upregulated, while
CXCL8
, IFNAR1, NFKB1A, STAT1, TICAM1
, and
TNF
were downregulated in LDNs, as compared to NDNs. Differently than NDNs, LDNs failed to phagocyte live
Mycobacterium tuberculosis
(
M. tuberculosis)
bacilli, to make oxidative burst and NETosis, but caused significant suppression of antigen-specific and polyclonal T cell proliferation which was partially mediated by IL-10. These insights add a little dowel of knowledge in understanding the pathogenesis of human TB.
...
PMID:
Mycobacterium tuberculosis
Drives Expansion of Low-Density Neutrophils Equipped With Regulatory Activities. 3184 55
CXCL8
is the principal human neutrophil-attracting chemokine and a major mediator of inflammation. The chemokine exerts its neutrophil-chemotactic and neutrophil-activating activities via interaction with glycosaminoglycans (GAGs) and activation of the G protein-coupled receptors (GPCRs) CXCR1 and CXCR2. Natural
CXCL8
displays an exceptional degree of amino (NH
2
)-terminal heterogeneity. Most
CXCL8
forms result from proteolytic processing of authentic
CXCL8
(1-77). Here, we compared the potencies to activate and recruit neutrophils of the 3 most abundant natural
CXCL8
forms: full-length 77 amino acid
CXCL8
and the 2 major natural truncated forms lacking 5 or 8 NH
2
-terminal amino acids. NH
2
-terminal truncation hardly affected the capacity of
CXCL8
to induce shedding of CD62L or to up-regulate the expression of the adhesion molecules CD11a, CD11b, or
CD15
on human neutrophils. In addition, the potency of
CXCL8
to induce neutrophil degranulation and its effect on phagocytosis remained unaltered upon removal of 5 or 8 NH
2
-terminal residues. However, NH
2
-terminal truncation strongly potentiated
CXCL8
-induced actin polymerization.
CXCL8
(6-77) and
CXCL8
(9-77) showed a comparable capacity to induce Ca
2+
signaling in human neutrophils and to direct in vitro neutrophil migration. Strikingly, the ability of
CXCL8
(9-77) to recruit neutrophils into the peritoneal cavity of mice was significantly enhanced compared to
CXCL8
(6-77). These results suggest that NH
2
-terminal truncation influences specific biological activities of
CXCL8
and indicate that
CXCL8
(9-77) may be the most potent neutrophil-attracting
CXCL8
form in vivo.
...
PMID:Truncation of CXCL8 to CXCL8(9-77) enhances actin polymerization and in vivo migration of neutrophils. 3227 90
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