Marie-Alexandra Alyanakian

Human PMS2 deficiency is associated with impaired immunoglobulin class switch recombination

Immunoglobulin (Ig) class switch recombination (CSR) deficiencies are rare primary immunodeficiencies characterized by the lack of switched isotype (IgG/IgA/IgE) production. In some cases, CSR deficiencies can be associated with abnormal somatic hypermutation. Analysis of CSR deficiencies has helped reveal the key functions of CSR-triggering molecules, i.e., CD40L, CD40, and effector molecules such as activation-induced cytidine deaminase and uracil N-glycosylase. We report a new form of B cell–intrinsic CSR deficiency found in three patients with deleterious, homozygous mutations in the gene encoding the PMS2 component of the mismatch repair machinery. CSR was found partially defective in vivo and markedly impaired in vitro. It is characterized by the defective occurrence of double-strand DNA breaks (DSBs) in switch regions and abnormal formation of switch junctions. This observation strongly suggests a role for PMS2 in CSR-induced DSB generation.

Diversity of regulatory CD4+ T cells controlling distinct organ-specific autoimmune diseases

Depletion of selected regulatory CD4+ T cell subsets induces the spontaneous onset of various immune or autoimmune disorders. It is not clear, however, whether a given subset, notably CD4+CD25+ regulatory T cells, protects from a wide spectrum of immune disorders, or whether specialized subsets of regulatory T cells control each given disease or group of diseases. We report here, using diabetes prone nonobese diabetic (NOD) mice, that depending on the regulatory T cells that are depleted, i.e., CD25+, CD62L+, or CD45RBlow, distinct immune diseases appear after transfer into NOD severe combined immunodeficiency (SCID) recipients. Thus, reconstitution of NOD SCID mice with CD25- T cells induces major gastritis and late-onset diabetes, but no or mild colitis. Reconstitution with CD62L- T cells induces fulminant diabetes with no colitis or gastritis. Reconstitution with CD45RBhigh T cells induces major colitis with wasting disease and no or very moderate gastritis and diabetes. Major differences among the three regulatory T cell subsets are also seen in vitro. The bulk of suppressor cells inhibiting the proliferation of CD4+CD25- T cells in coculture is concentrated within the CD25+ but not the CD62L+ or CD45RBlow T cell subsets. Similarly, cytokine production patterns are significantly different for each regulatory T cell subset. Collectively, these data point to the diversity and organ selectivity of regulatory T cells controlling distinct autoimmune diseases whatever the underlying mechanisms.

Detection of interferon alpha protein reveals differential levels and cellular sources in disease

Type I interferons (IFNs) are essential mediators of antiviral responses. These cytokines have been implicated in the pathogenesis of autoimmunity, most notably systemic lupus erythematosus (SLE), diabetes mellitus, and dermatomyositis, as well as monogenic type I interferonopathies. Despite a fundamental role in health and disease, the direct quantification of type I IFNs has been challenging. Using single-molecule array (Simoa) digital ELISA technology, we recorded attomolar concentrations of IFN&agr; in healthy donors, viral infection, and complex and monogenic interferonopathies. IFN&agr; protein correlated well with functional activity and IFN-stimulated gene expression. High circulating IFN&agr; levels were associated with increased clinical severity in SLE patients, and a study of the cellular source of IFN&agr; protein indicated disease-specific mechanisms. Measurement of IFN&agr; attomolar concentrations by digital ELISA will enhance our understanding of IFN biology and potentially improve the diagnosis and stratification of pathologies associated with IFN dysregulation.

Immunoregulatory Pathways Controlling Progression of Autoimmunity in NOD Mice

The activation, expansion, and survival of regulatory T cells (Tregs) as well as the expression of their suppressive capacities result from distinct signaling pathways involving various membrane receptors and cytokines. Multiple studies have shown that thymus‐derived naturally occurring Tregs constitutively express the forkhead/winged helix transcription factor FoxP3 in addition to high levels of CD25, the negative co‐stimulatory molecule CTLA‐4, and the glucocorticoid‐induced TNF receptor‐related protein GITR. At variance, adaptive or induced Tregs acquire these phenotypic markers as they differentiate in the periphery, following adequate stimulation in the appropriate environment, together with their capacity to produce immunomodulatory cytokines (mainly, IL‐4, IL‐10 and TGF‐β) and to display regulatory capacities. However, none of these molecules but FoxP3 are restricted to Tregs since they may also be expressed and upregulated on activated effector T cells. This explains why different hypotheses were proposed to interpret interesting reports showing that in vivo abrogation of CTLA‐4 signaling using neutralizing CTLA‐4 antibodies triggers different autoimmune or immune‐mediated manifestations. Thus, an effect on pathogenic T cell effectors and/or Tregs has been proposed. Here we present and discuss recent results we obtained in the nonobese diabetic (NOD) mouse model of spontaneous autoimmune diabetes, arguing for a key role of CTLA‐4 in the functional activity of Tregs. Moreover, data are presented that simultaneous blockade of CTLA4 and TGF‐β further impairs immunoregulatory circuits that control disease progression.

Human MSH6 Deficiency Is Associated with Impaired Antibody Maturation

Ig class-switch recombination (Ig-CSR) deficiencies are rare primary immunodeficiencies characterized by defective switched isotype (IgG/IgA/IgE) production. Depending on the molecular defect, defective Ig-CSR may also be associated with impaired somatic hypermutation (SHM) of the Ig V regions. Although the mechanisms underlying Ig-CSR and SHM in humans have been revealed (at least in part) by studying natural mutants, the role of mismatch repair in this process has not been fully elucidated. We studied in vivo and in vitro Ab maturation in eight MSH6-deficient patients. The skewed SHM pattern strongly suggests that MSH6 is involved in the human SHM process. Ig-CSR was found to be partially defective in vivo and markedly impaired in vitro. The resolution of γH2AX foci following irradiation of MSH6-deficient B cell lines was also found to be impaired. These data suggest that in human CSR, MSH6 is involved in both the induction and repair of DNA double-strand breaks in switch regions.

Dual T cell– and B cell–intrinsic deficiency in humans with biallelic RLTPR mutations

In two complementary papers, Casanova, Malissen, and collaborators report the discovery of human RLTPR deficiency, the first primary immunodeficiency of the human CD28 pathway in T cells. Together, the two studies highlight the important and largely (but not completely) overlapping roles of RLTPR in T and B cells of humans and mice.

Immunoglobulin deposition disease with a membranous pattern and a circulating monoclonal immunoglobulin G with charge-dependent aggregation properties.

A 62-year-old woman presented with nephrotic syndrome, monoclonal gammopathy, and membranous-like nephropathy with nonorganized deposits composed of monoisotypic immunoglobulin G1 lambda protein. Nephrotic syndrome remitted after a brief course of treatment with melphalan despite ongoing production of the monoclonal protein. The circulating monoclonal immunoglobulin G1 lambda showed unusual in vitro aggregation properties, including dependence on low ionic strength and neutral pH, suggesting that electrostatic interactions had a role in the precipitation process. This case illustrates the importance of looking for monoclonal immunoglobulin deposits when kidney biopsy findings are suggestive of membranous nephropathy. In addition, our in vitro demonstrations of the role of physicochemical factors in immunoglobulin precipitation help elucidate the pathogenesis of immunoglobulin deposition disorders. Although binding to podocyte antigens is a well-recognized determinant of subepithelial immunoglobulin deposition, proneness to aggregation as described in this case also might be nephritogenic.

A recessive form of hyper-IgE syndrome by disruption of ZNF341-dependent STAT3 transcription and activity

ZNF341 is a newly characterized transcription factor controlling baseline and inducible transcription of the human STAT3 gene. Fingers on the trigger Hyper–immunoglobulin E syndromes (HIESs) are rare genetic immunodeficiency diseases characterized by bacterial infections, chronic mucocutaneous candidiasis, allergies, and skeletal abnormalities that are associated with excessive TH2 responses and impaired TH17 immunity. Béziat et al. and Frey-Jakobs et al. have studied patients with an autosomal recessive form of HIES and identified mutations in the zinc finger transcription factor ZNF341 as the culprit. Loss-of-function mutations encoding truncated forms of ZNF341 interfered with its ability to recognize a bipartite binding site located in the promoter of STAT3, the transcription factor mutated in most cases of autosomal dominant HIES. ZNF341-supported transcription of STAT3 is a key upstream regulatory step needed to trigger the normal induction of the TH17 differentiation pathway. These findings reveal a previously unappreciated layer of transcriptional regulation controlling JAK-STAT signaling. Heterozygosity for human signal transducer and activator of transcription 3 (STAT3) dominant-negative (DN) mutations underlies an autosomal dominant form of hyper–immunoglobulin E syndrome (HIES). We describe patients with an autosomal recessive form of HIES due to loss-of-function mutations of a previously uncharacterized gene, ZNF341. ZNF341 is a transcription factor that resides in the nucleus, where it binds a specific DNA motif present in various genes, including the STAT3 promoter. The patients’ cells have low basal levels of STAT3 mRNA and protein. The autoinduction of STAT3 production, activation, and function by STAT3-activating cytokines is strongly impaired. Like patients with STAT3 DN mutations, ZNF341-deficient patients lack T helper 17 (TH17) cells, have an excess of TH2 cells, and have low memory B cells due to the tight dependence of STAT3 activity on ZNF341 in lymphocytes. Their milder extra-hematopoietic manifestations and stronger inflammatory responses reflect the lower ZNF341 dependence of STAT3 activity in other cell types. Human ZNF341 is essential for the STAT3 transcription–dependent autoinduction and sustained activity of STAT3.

Array‐CGH predicts prognosis in plasma cell post‐transplantation lymphoproliferative disorders

Plasma‐cell post‐transplantation lymphoproliferative disorder (PC‐PTLD) is a rare monomorphic PTLD entity divided into plasma cell myeloma (PCM) and plasmacytoma‐like lesion (PLL) PTLD. To date, there are no exhaustive published cytogenetic data on PC‐PTLD. We report array‐based comparative genomic hybridization (aCGH) of 10 cases of PCM and PLL‐PTLD. Patients had received kidney (n = 6), heart (n = 2), lung (n = 1) or bone marrow (n = 1) transplantation. There were six men and median age at time of PTLD was 56.5 years (3–74). We identified two different cytological features, plasmacytic and plasmablastic, among six PLL and three PCM PTLD. Eight cases were associated with EBV. First line treatment was heterogeneous: rituximab alone (n = 5), CHOP‐like (n = 3) and multiple myeloma‐like (n = 1). One patient died before any treatment. After a median follow‐up of 19.5 months (0–150), five patients died (four from PTLD) and five were alive without evidence of disease. By aCGH, 5/10 demonstrated a complex profile. The most frequent abnormalities were +7q (5/10), +16q (5/10), +17q (5/10), +17p (4/10), +5q (4/10), t7 (4/10), t9 (3/10), del1p (3/10). No del17p13 (TP53) were observed. Del1p32.3 (CDKN2C) was observed in 2 cases. On univariate prognostic analysis, a complex aCGH was associated with a shorter OS. Thus, cytogenetic abnormalities seem to be closely related to those reported in multiple myeloma or diffuse large B cell lymphoma. Complex aCGH constitutes an unfavorable prognostic marker and aCGH should be integrated in the evaluation of patients with PLL/PCM‐PTLD.

Light and heavy chain deposition disease associated with CH1 deletion.

Light and heavy chain deposition disease (LHCDD) is a rare complication of monoclonal gammopathy. In all documented cases, LHCDD is the association of deposits of a monoclonal light chain with a normal heavy chain, especially in the kidneys. We describe here a 78-year-old woman whose renal biopsy showed nodular glomerulosclerosis, initially diagnosed as diabetic nephropathy. Detailed kidney biopsy immunofluorescence study corrected the diagnosis to γ1-κ-LHCDD. Advanced immunoblot analysis showed deletion of CH1 in the both blood and kidney heavy chain. We report here, to our knowledge, the first case of γ1 LHCDD associated with a deletion of CH1.