Giannamaria Cerruti scite author profile

Deficiency of glycosylphosphatidylinositol (GPI)-anchored molecules on blood cells accounts for most features of paroxysmal nocturnal hemoglobinuria (PNH) but not for the expansion of PNH (GPI ؊ ) clone(s).A plausible model is that PNH clones expand by escaping negative selection exerted by autoreactive T cells against normal (GPI ؉ ) hematopoiesis. By a systematic analysis of T-cell receptor beta (TCR-␤) clonotypes of the CD8 ؉ CD57 ؉ T-cell population, frequently deranged in PNH, we show recurrent clonotypes in PNH patients but not in healthy controls: 11 of 16 patients shared at least 1 of 5 clonotypes, and a set of closely related clonotypes was present in 9 patients. The presence of T-cell clones bearing a set of highly homologous TCR-␤ molecules in most patients with hemolytic PNH is consistent with an immune process driven by the same (or similar) antigen(s)-probably a nonpeptide antigen, because patients sharing clonotypes do not all share identical HLA alleles. These data confirm that CD8 ؉ CD57 ؉ T cells play a role in PNH pathogenesis and provide strong new support to the hypothesis that the expansion of the GPI ؊ blood cell population in PNH is due to selective damage to normal hematopoiesis mediated by an autoimmune attack against a nonpeptide antigen(s) that could be the GPI anchor itself. IntroductionParoxysmal nocturnal hemoglobinuria (PNH) is an acquired clonal disorder of the hematopoietic stem cell (HSC) 1 characterized by 3 clinical hallmarks: intravascular hemolysis, tendency to venous thrombosis, and variable degrees of bone marrow failure. [2][3][4] The primary molecular lesion responsible for PNH is a somatic mutation of the X-linked PIGA gene in HSCs, 5,6 resulting in either complete or partial deficiency of all glycosylphosphatidylinositol (GPI)-linked proteins from the cell membrane of the progeny of the mutated HSC (GPI Ϫ ). 7,8 The deficiency of the GPI-linked proteins (including the complement-regulating proteins CD59 and CD55) from the surface of blood cells explains the intravascular hemolysis 9 and probably underlies the increased tendency to venous thrombosis. 10 However, a PIGA gene mutation per se does not explain the bone marrow failure and the expansion of the GPI Ϫ clone. In fact, very rare GPI Ϫ blood cells are present in healthy subjects, 11 but only in PNH patients do the GPI Ϫ cells expand and contribute to hematopoiesis to various degrees, side by side with normal (GPI ϩ ) hematopoiesis. 12,13 Clinical observations, 14,15 in vitro hematopoietic colony studies, 16,17 and data from PNH mouse models [18][19][20] indicate that GPI Ϫ HSCs do not have an absolute growth advantage. The close relationship of PNH to idiopathic aplastic anemia (IAA) has suggested that autoreactive T cells against HSCs believed to be responsible for IAA may be at work also in PNH. Specifically, it has been hypothesized that in PNH autoreactive T cells destroy selectively GPI ϩ (normal) HSCs, whereas GPI Ϫ (PNH)HSCs can escape T-cell-mediated damage, thus being able to survive and expand. 21 In r...

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Microenvironmental regulation of the IL-23R/IL-23 axis overrides chronic lymphocytic leukemia indolence

Cutrona

Tripodo

Matis

et al. 2018

Sci. Transl. Med.

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Although the progression of chronic lymphocytic leukemia (CLL) requires the cooperation of the microenvironment, the exact cellular and molecular mechanisms involved are still unclear. We investigated the interleukin (IL)-23 receptor (IL-23R)/IL-23 axis and found that circulating cells from early-stage CLL patients with shorter time-to-treatment, but not of those with a more benign course, expressed a defective form of the IL-23R complex lacking the IL-12Rβ1 chain. However, cells from both patient groups expressed the complete IL-23R complex in tissue infiltrates and could be induced to express the IL-12Rβ1 chain when cocultured with activated T cells or CD40L cells. CLL cells activated in vitro in this context produced IL-23, a finding that, together with the presence of IL-23 in CLL lymphoid tissues, suggests the existence of an autocrine/paracrine loop inducing CLL cell proliferation. Interference with the IL-23R/IL-23 axis using an anti-IL-23p19 antibody proved effective in controlling disease onset and expansion in xenografted mice, suggesting potential therapeutic strategies.

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Antibodies to adhesion molecules inhibit the lytic function of MHC-unrestricted cytotoxic cells by preventing their activation

Zarcone¹,

Viale²,

Cerruti³

et al. 1992

Cellular Immunology

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