Mario Vitacolonna scite author profile

The metastasizing capacity of the rat pancreatic adenocarcinoma BSp73ASML (ASML(wt)) is strikingly reduced by a knockdown of CD44v4-v7 (ASML(kd)). We used this model to analyze the role of the CD44 variant isoform (CD44v) in (pre)metastatic niche formation. Intrafootpad injections of ASML(wt)-, but not ASML(kd)-conditioned medium (CM), strongly promote settlement of ASML(kd) cells in lymph nodes and lung. Fractionation of CM revealed a contribution by a soluble matrix and exosomes, where the CD44v6-containing ASML(wt)-soluble fraction can complement ASML(kd)-exosomes, but not vice versa. This implies that exosomes are the final actors, are CD44v-independent, but require a soluble matrix, which depends on CD44v. Analyzing the composition revealed that only the ASML(wt)-matrix contains c-Met and urokinase-type plasminogen activator receptor. In vitro, mostly ASML(wt)-exosomes promote proliferation and induce gene expression in metastatic organ cells. However, in vivo corresponding changes in the (pre) metastatic organ are only observed when both, exosomes plus the soluble matrix, are provided. Thus, neither CD44v nor exosomes alone suffice for (pre)metastatic niche formation. Instead, CD44v suffices for assembling a soluble matrix, which allows exosomes, independent of their origin from poorly or highly metastatic cells, to modulate (pre) metastatic organ cells for tumor cell embedding and growth.

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Transfer of CD8+ Cells Induces Localized Hair Loss Whereas CD4+/CD25− Cells Promote Systemic Alopecia Areata and CD4+/CD25+ Cells Blockade Disease Onset in the C3H/HeJ Mouse Model

McElwee

Freyschmidt‐Paul

Hoffmann

et al. 2005

Journal of Investigative Dermatology

132

119

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Alopecia areata (AA) is a suspected hair follicle specific autoimmune disease. The potential for cell transfer of AA using the C3H/HeJ mouse model was examined. Cells isolated from lymph nodes and spleens of AA-affected mice using magnetic bead conjugated monoclonal antibodies were subcutaneously injected into normal C3H/HeJ recipients. Within 5 wk, all CD8(+) cell-injected mice exhibited localized hair loss exclusively at the site of injection that persisted until necropsy. In contrast, some CD4(+) and CD4(+)/CD25(-) cell-injected mice developed extensive, systemic AA, and a combination of CD8(+) and CD4(+)/CD25(-) cells injected yielded the highest frequency of systemic AA induction. CD4(+)/CD25(+) cells were less able to transfer the disease phenotype, partially blockaded systemic AA induction by CD4(+)/CD25(-) cells, and prevented CD8(+) cell-induced, injection site-localized hair loss. CD11c(+) and CD19(+) cells failed to promote significant phenotype changes. Increases in co-stimulatory ligands CD40 and CD80, plus increased leukocyte apoptosis resistance with reduced CD95, CD95L, and CD120b expression, were associated with successful alopecia induction. The results suggest that CD8(+) cells may be the primary instigators of the hair loss phenotype. However, systemic disease expression fate is, apparently determined by CD4(+)/CD25(-) cells, while CD4(+)/CD25(+) lymphocytes may play a predominantly regulatory role.

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Mario Vitacolonna

CD44v6 Dependence of Premetastatic Niche Preparation by Exosomes

Transfer of CD8+ Cells Induces Localized Hair Loss Whereas CD4+/CD25− Cells Promote Systemic Alopecia Areata and CD4+/CD25+ Cells Blockade Disease Onset in the C3H/HeJ Mouse Model

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