Impaired lymphocyte function and differentiation in CTPS1-deficient patients result from a hypomorphic homozygous mutation
Emmanuel Martin, Norbert Minet, Anne-Claire Boschat, Sylvia Sanquer, Steicy Sobrino, Christelle Lenoir, Jean Pierre de Villartay, Maria Leite-de-Moraes, Capucine Picard, Claire Soudais, Tim Bourne, Sophie Hambleton, Stephen M. Hughes, Robert F. Wynn, Tracy A. Briggs, Genomics England Research Consortium, Smita Patel, Monica G. Lawrence, Alain Fischer, Peter D. Arkwright, Sylvain Latour
Emmanuel Martin, Norbert Minet, Anne-Claire Boschat, Sylvia Sanquer, Steicy Sobrino, Christelle Lenoir, Jean Pierre de Villartay, Maria Leite-de-Moraes, Capucine Picard, Claire Soudais, Tim Bourne, Sophie Hambleton, Stephen M. Hughes, Robert F. Wynn, Tracy A. Briggs, Genomics England Research Consortium, Smita Patel, Monica G. Lawrence, Alain Fischer, Peter D. Arkwright, Sylvain Latour
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Research Article Immunology

Impaired lymphocyte function and differentiation in CTPS1-deficient patients result from a hypomorphic homozygous mutation

Abstract

Cytidine triphosphate (CTP) synthetase 1 (CTPS1) deficiency is caused by a unique homozygous frameshift splice mutation (c.1692-1G>C, p.T566Dfs26X). CTPS1-deficient patients display severe bacterial and viral infections. CTPS1 is responsible for CTP nucleotide de novo production involved in DNA/RNA synthesis. Herein, we characterized in depth lymphocyte defects associated with CTPS1 deficiency. Immune phenotyping performed in 7 patients showed absence or low numbers of mucosal-associated T cells, invariant NKT cells, memory B cells, and NK cells, whereas other subsets were normal. Proliferation and IL-2 secretion by T cells in response to TCR activation were markedly decreased in all patients, while other T cell effector functions were preserved. The CTPS1T566Dfs26X mutant protein was found to be hypomorphic, resulting in 80%–90% reduction of protein expression and CTPS activity in cells of patients. Inactivation of CTPS1 in a T cell leukemia fully abolished cell proliferation. Expression of CTPS1T566Dfs26X failed to restore proliferation of CTPS1-deficient leukemia cells to normal, except when forcing its expression to a level comparable to that of WT CTPS1. This indicates that CTPS1T566Dfs26X retained normal CTPS activity, and thus the loss of function of CTPS1T566Dfs26X is completely attributable to protein instability. This study supports that CTPS1 represents an attractive therapeutic target to selectively inhibit pathological T cell proliferation, including lymphoma.

Authors

Emmanuel Martin, Norbert Minet, Anne-Claire Boschat, Sylvia Sanquer, Steicy Sobrino, Christelle Lenoir, Jean Pierre de Villartay, Maria Leite-de-Moraes, Capucine Picard, Claire Soudais, Tim Bourne, Sophie Hambleton, Stephen M. Hughes, Robert F. Wynn, Tracy A. Briggs, Genomics England Research Consortium, Smita Patel, Monica G. Lawrence, Alain Fischer, Peter D. Arkwright, Sylvain Latour

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Figure 6

Expression of CTPS1D18 mutant partially restores the proliferation of CTPS1-deficient Jurkat cells.

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Expression of CTPS1D18 mutant partially restores the proliferation of CT...
(A) Histograms representing flow cytometry analysis of CTPS1 expression in WT (gray) or CTPS1-KO (red) Jurkat cells. Isotype staining is represented by dotted lines. (B) Immunoblots for CTPS1 and actin protein expression in lysates of WT, CTPS1-KO, or complemented CTPS1-KO Jurkat cell lines. CTPS1-KO Jurkat cells were complemented with lentivirus expressing GFP, CTPS1 plus GFP, CTPS1Δ18 plus GFP, or the empty lentivirus (shown with a slash). Black and red arrows indicate CTPS1 and CTPS1Δ18 proteins, respectively. (C) Analysis of WT (gray histogram) and CTPS1-KO (red histogram) Jurkat cell proliferation using cell trace violet staining. Cells were treated or not with 200 μM of cytidine for 4 days. Data shown are representative of 2 independent experiments. (D) Immunoblots for CTPS1, actin, and GFP protein expressions in lysates of CTPS1 and CTPS1Δ18 complemented CTPS1-KO Jurkat cell lines at different times of culture in the presence or not of cytidine. (E) Same as D except that GFP protein expression was quantified by flow cytometry and represented in histograms. (F) Percentage of GFP+ cells in cocultures of CTPS1-KO Jurkat cells complemented with GFP alone (green symbols), CTPS1Δ18 plus GFP (red symbols), or WT CTPS1 plus GFP (gray symbols) with noncomplemented CTPS1-KO Jurkat cells at a 1:10 ratio for 16 days. Cells were cultured with cytidine (left) or not (right). Percentage values were obtained from FACS analysis. Data shown are representative of 2 independent experiments.