Julie Brazzatti scite author profile

Chemokines (chemotactic cytokines) drive and direct leukocyte traffic. New evidence suggests that the unusual CCR6/CCL20 chemokine receptor/ligand axis provides key homing signals for recently identified cells of the adaptive immune system, recruiting both pro-inflammatory and suppressive T cell subsets. Thus CCR6 and CCL20 have been recently implicated in various human pathologies, particularly in autoimmune disease. These studies have revealed that targeting CCR6/CCL20 can enhance or inhibit autoimmune disease depending on the cellular basis of pathogenesis and the cell subtype most affected through different CCR6/CCL20 manipulations. Here, we discuss the significance of this chemokine receptor/ligand axis in immune and inflammatory functions, consider the potential for targeting CCR6/CCL20 in human autoimmunity and propose that the shared evolutionary origins of pro-inflammatory and regulatory T cells may contribute to the reason why both immune activation and regulation might be controlled through the same chemokine pathway.

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Differential roles for the p101 and p84 regulatory subunits of PI3Kγ in tumor growth and metastasis

Brazzatti

Klingler‐Hoffmann

Haylock‐Jacobs

et al. 2011

Oncogene

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Phosphoinositide 3-kinase c (PI3Kc) consists of a catalytic subunit p110c, which forms mutually exclusive dimers with one of the regulatory subunits called p101 and p84/p87 PIKAP . Recently, PI3Kc emerged as being a potential oncogene because overexpression of the catalytic subunit p110c or the regulatory subunit p101 leads to oncogenic cellular transformation and malignancy. However, the contribution of the individual subunits to tumor growth and metastasis and the mechanisms involved are not understood. We therefore individually knocked down the PI3Kc subunits (p84, p101 and p110c) in MDA-MB-231 cells, which reduced in vitro migration of the cell lines. Knockdown of p110c or p101 inhibited apoptosis, Akt phosphorylation and lung colonization in SCID mice. Similarly, the knockdown of p110c and p101 in murine epithelial carcinoma 4T1.2 cells inhibited primary tumor growth and spontaneous metastasis, as well as lung colonization. In contrast, knockdown of p84 in MDA-MB-231 cells enhanced Akt phosphorylation and lung colonization. These findings are the first to implicate differential functions of the two PI3Kc regulatory subunits in the process of oncogenesis, and indicate that loss of p101 is sufficient to reduce in vivo tumor growth and metastasis to the same extent as that of p110c.

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Understanding and exploiting 5T4 oncofoetal glycoprotein expression

Stern

Brazzatti

Sawan

et al. 2014

Seminars in Cancer Biology

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Radiative-surface plasmon resonance for the detection of apolipoprotein E in medical diagnostics applications

Sciacca

François

Klingler‐Hoffmann

et al. 2013

Nanomedicine: Nanotechnology, Biology and Medicine

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Julie Brazzatti

An immune paradox: How can the same chemokine axis regulate both immune tolerance and activation?

Differential roles for the p101 and p84 regulatory subunits of PI3Kγ in tumor growth and metastasis

Understanding and exploiting 5T4 oncofoetal glycoprotein expression

Radiative-surface plasmon resonance for the detection of apolipoprotein E in medical diagnostics applications

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