Luisa Imberti

Simultaneous quantification of recent thymic T-cell and bone marrow B-cell emigrants in patients with primary immunodeficiency undergone to stem cell transplantation

A major problem in the field of stem cell transplantation is the difficulty to monitor the efficacy of immune reconstitution. By modifying the widely used method of measuring T-cell receptor excision circles (TRECs) and the recently proposed kappa-deleting recombination excision circles (KRECs) assay, we set up a duplex Real-Time PCR that allowed the simultaneous quantification of newly produced T and B cells in children with primary immunodeficiency undergone to transplantation. We found that lymphocyte recovery involves the mobilization of both new T and B cells from production and maturation sites, and that the increase of TRECs and KRECs can be or strictly associated or independent one from the other. Some patients showed a lymphocyte rebound which is followed by a progressive decrease of newly produced T and B lymphocytes starting about 2years after transplantation. In other patients, TRECs and KRECs number remained very low for the entire period of study.

The Different Extent of B and T Cell Immune Reconstitution after Hematopoietic Stem Cell Transplantation and Enzyme Replacement Therapies in SCID Patients with Adenosine Deaminase Deficiency

The lack of adenosine deaminase (ADA) leads to the accumulation of toxic metabolites, resulting in SCID. If the disease is left untreated, it is likely to have a fatal outcome in early infancy. Because hematopoietic stem cell transplantation (HSCT) and enzyme replacement therapy with pegylated bovine ADA (PEG-ADA) are both provided in our hospital, we undertook a retrospective longitudinal comparative study of the extent of lymphocyte recovery in two groups of treated ADA-SCID children. Together with classical immunological parameters, we quantified the output of the new B and T cells from the production sites using the κ-deleting recombination excision circle and TCR excision circle assay, and we monitored T cell repertoire diversification. We found that immune reconstitution was different following the two treatments. The stable production of κ-deleting recombination excision circle+ lymphocytes sustained an increase in B cell number in HSCT-treated patients, whereas in PEG-ADA–treated patients, it was accompanied by a significant and progressive decrease in circulating CD19+ lymphocytes, which never reached the levels observed in age-matched children. The mobilization of TCR excision circle+ cells, though lower than in controls, was stable with time after HSCT treatment, leading to a constant peripheral T cell number and to the diversification of the T cell repertoire; however, it was compromised in children receiving prolonged PEG-ADA therapy, whose T cells showed progressively narrowing T cell repertoires.

Dacarbazine Treatment before Peptide Vaccination Enlarges T-Cell Repertoire Diversity of Melan-A―Specific, Tumor-Reactive CTL in Melanoma Patients

Combination of chemotherapy and immunotherapy to increase the effectiveness of an antitumor immune response is currently regarded as an attractive antitumor strategy. In a pilot clinical trial, we have recently documented an increase of melanoma antigen A (Melan-A)-specific, tumor-reactive, long-lasting effector-memory CD8(+) T cells after the administration of dacarbazine (DTIC) 1 day before peptide vaccination in melanoma patients. Global transcriptional analysis revealed a DTIC-induced activation of genes involved in the immune response and leukocyte activation. To identify the possible mechanisms underlying this improved immune response, we have compared the endogenous and the treatment-induced anti-Melan-A response at the clonal level in patients treated with the vaccine alone or with DTIC plus vaccine. We report a progressive widening of T-cell receptor (TCR) repertoire diversity, accompanied by high avidity and tumor reactivity, only in Melan-A-specific T-cell clones of patients treated with chemoimmunotherapy, with a trend toward longer survival. Differently, patients treated with vaccine alone showed a tendency to narrowing the TCR repertoire diversity, accompanied by a decrease of tumor lytic activity in one patient. Collectively, our findings indicate that DTIC plus vaccination shapes the TCR repertoire in terms of diversity and antitumor response, suggesting that this combined therapy could be effective in preventing melanoma relapse.

Thymic and Bone Marrow Output in Patients with Common Variable Immunodeficiency

ObjectiveThe study aims to obtain more information about the immune deficit of common variable immunodeficiency (CVID) patients.Materials and MethodsA new real-time PCR assay was used to quantify T and B lymphocyte mobilization from the production and maturation sites through the detection of T cell receptor excision circles (TRECs) and kappa-deleting recombination circles (KRECs) and to allow the estimation of the average number of B cell divisions. T and B lymphocyte subsets were analyzed by flow cytometry.ResultsThe number of TREC+ lymphocytes, which depends on age and gender, was significantly reduced in CVID patients. Similarly, KREC concentration was lower than in controls. Classification of patients according to the percentage of memory switched B cells showed that patients belonging to MB2 group and therefore with conserved B cell maturation have the lowest new B cell output but increased average peripheral divisions, leading to the highest B cell number.ConclusionsTREC and KREC quantification can be helpful for a more complete and informative understanding of a heterogeneous disease such as CVID.

Heterogeneous expression of toll-like receptors in lymphatic endothelial cells derived from different tissues

As lymphatic endothelial cells (LECs) express different lymphatic and vascular markers depending on the organ they are derived from, we analysed whether they also show a heterogeneity of response against pathogens. To this end we analysed, for the presence of mRNA encoding for all human toll‐like receptor (TLR), LECs isolated from lymph nodes and thymuses. RNA for TLR1–6 and 9 was identified in thymus‐derived cells, whereas cells derived from lymph nodes contained mRNA for TLR1–4, 6 and 9, but failed to express mRNA specific for TLR5. The differential expression of TLRs was confirmed by the phosphorylation of nuclear factor‐κB p65 only when the two types of LECs were incubated with the appropriate TLR agonists. The stimulation with specific agonists gives rise to a heterogeneous pattern of cytokine and chemokine secretion: thymus‐derived LECs produced preferentially interleukin‐6, interferon‐inducible protein (IP)‐10 and tumour necrosis factor‐α, whereas cells prepared from lymph nodes mainly released interleukin‐8, monocyte chemotactic protein‐1, RANTES and (IP)‐10. Finally, cells purified from lymph nodes expressed a higher level of intercellular adhesion molecule‐1 than did cells prepared from the thymus when stimulated with several TLR agonists. The expression of a large set of TLRs and the responsiveness to specific agonists suggest that LECs are able to respond to pathogens, and the observed differences reflect specialized functions, redundancy and/or roles of LECs of different origin.

Peripheral accumulation of newly produced T and B lymphocytes in natalizumab-treated multiple sclerosis patients.

The anti-α4 monoclonal antibody natalizumab inhibits lymphocyte extravasation into the central nervous system and increases peripheral T and B lymphocytes in multiple sclerosis patients. To investigate whether the lymphocyte accumulation was due to a higher lymphocyte production, an altered homeostasis, or a differential transmigration of lymphocyte subsets through endothelia, T-cell receptor excision circles and kappa-deleting recombination excision circles were quantified before and after treatment, T-cell receptor repertoire was analyzed by spectratyping, and T- and B-lymphocyte subset migration was studied using transwell coated with vascular and lymphatic endothelial cells. We found that the number of newly produced T and B lymphocytes is increased because of a high release and of a low propensity of naïve subsets to migrate across endothelial cells. In some patients this resulted in an enlargement of T-cell heterogeneity. Because new lymphocyte production ensures the integrity of immune surveillance, its quantification could be used to monitor natalizumab therapy safety.

Pre-existing T- and B-cell defects in one progressive multifocal leukoencephalopathy patient.

Progressive multifocal leukoencephalopathy (PML) usually occurs in patients with severe immunosuppression, hematological malignancies, chronic inflammatory conditions or receiving organ transplant. Recently, PML has also been observed in patients treated with monoclonal antibodies. By taking advantage of the availability of samples from a multiple sclerosis (MS) patient treated with natalizumab, the antibody anti-α4 integrin, who developed PML and was monitored starting before therapy initiation, we investigated the fate of T and B lymphocytes in the onset of PML. Real-time PCR was used to measure new T- and B-cell production by means of T-cell receptor excision circle (TREC) and K-deleting recombination excision circle (KREC) analysis and to quantify transcripts for CD34, terminal-deoxynucleotidyltransferase, and V pre-B lymphocyte gene 1. T- and B-cell subsets and T-cell heterogeneity were measured by flow cytometry and spectratyping. The data were compared to those of untreated and natalizumab-treated MS patients and healthy donors. Before therapy, a patient who developed PML had a low TREC and KREC number; TRECs remained low, while KRECs and pre-B lymphocyte gene 1 transcripts peaked at 6 months of therapy and then decreased at PML diagnosis. Flow cytometry confirmed the deficient number of newly produced T lymphocytes, counterbalanced by an increase in TEMRA cells. The percentage of naive B cells increased by approximately 70% after 6 months of therapy, but B lymphocyte number remained low for the entire treatment period. T-cell heterogeneity and immunoglobulins were reduced. Although performed in a single patient, all results showed that an immune deficit, together with an increase in newly produced B cells a few months after therapy initiation, may predispose the patient to PML. These findings indicate the TREC/KREC assay is a potential tool to identify patients at risk of developing PML and may provide insights into the immunological involvement of monoclonal antibody-associated therapies.

Transforming growth factor-beta1 induces microvascular abnormalities through a down-modulation of neural cell adhesion molecule in human hepatocellular carcinoma.

Hepatocellular carcinoma (HCC) is a very angiogenic and malignant cancer. Conventional chemotherapy is poorly effective because of the abnormal structural organization of HCC-infiltrating vessels. In previous work, we demonstrated that HCC angiogenesis is driven by transforming growth factor beta-1(TGF-β1)/CD105 axis, stimulating liver-derived microvascular endothelial cells (Ld-MECs) migration. As TGF-β1 also affects mural cells (MCs) recruitment and maturation, we asked whether it may contribute to HCC-induced vascular abnormalities. HCC and adjacent non-neoplastic liver (nNL) biopsies obtained from 12 patients were analyzed by immunohistochemistry for angiogenic markers CD105, TGF-β1, CD44 and vascular endothelial growth factor-a (VEGFa) and for MC markers NG2, α-smooth muscle actin (αSMA) and neural cell adhesion molecule (NCAM). The same markers were also investigated by immunocytochemistry on cultured HCC-derived stromal cells (HCC-StCs) and nNL-derived StCs (nNL-StCs) isolated from the same liver biopsies. Angiogenic factors released by StCs were analyzed by ELISA and the interaction between StCs and Ld-MECs by adhesion assay. Compared with nNL, HCC biopsies showed increased angiogenic markers and αSMA that was localized in vessels. By contrast, NG2 and NCAM were substantially localized in tumor cells but absent in vessels and stroma. Cultured HCC-StCs showed less expression of NG2, αSMA and NCAM. They also demonstrated a lower capacity to release angiogenic factors and adhered on Ld-MECs. HCC-StCs and nNL-StCs treated with TGF-β1 or with of HepG2 (a human hepatoma cell line) derived conditioned medium (CM), down-modulated NCAM expression, whereas anti-NCAM antibodies significantly reduced the adhesion of StCs to Ld-MECs. By further blocking TGF-β1 with anti-TGF-β1 antibodies or with Ly-364947 (a specific inhibitor TGF-β1-receptor) adhesion to Ld-MECs and NCAM expression respectively was partially restored. TGF-β1 contributes to HCC-induced vascular alterations by affecting the interaction between HCC-StCs and Ld-MECs through a down-modulation of NCAM expression.

Use of V(D)J recombination excision circles to identify T- and B-cell defects and to monitor the treatment in primary and acquired immunodeficiencies

T-cell receptor excision circles (TRECs) and kappa-deleting recombination excision circles (KRECs) are circular DNA segments generated in T and B cells during their maturation in the thymus and bone marrow. These circularized DNA elements persist in the cells, are unable to replicate, and are diluted as a result of cell division, thus are considered markers of new lymphocyte output. The quantification of TRECs and KRECs, which can be reliably performed using singleplex or duplex real-time quantitative PCR, provides novel information in the management of T- and B-cell immunity-related diseases. In primary immunodeficiencies, when combined with flow cytometric analysis of T- and B-cell subpopulations, the measure of TRECs and KRECs has contributed to an improved characterization of the diseases, to the identification of patients’ subgroups, and to the monitoring of stem cell transplantation and enzyme replacement therapy. For the same diseases, the TREC and KREC assays, introduced in the newborn screening program, allow early disease identification and may lead to discovery of new genetic defects. TREC and KREC levels can also been used as a surrogate marker of lymphocyte output in acquired immunodeficiencies. The low number of TRECs, which has in fact been extensively documented in untreated HIV-infected subjects, has been shown to increase following antiretroviral therapy. Differently, KREC number, which is in the normal range in these patients, has been shown to decrease following long-lasting therapy. Whether changes of KREC levels have relevance in the biology and in the clinical aspects of primary and acquired immunodeficiencies remains to be firmly established.

Transfer of myxovirus-protein-A mRNA assay for interferon-β bioactivity measurement in multiple sclerosis patients to routine laboratory practice. A 4-year experience

Abstract Background: As new biomarkers are validated and their significance in the natural history of specific diseases is established, these technologies can be rapidly transferred to clinical application. Since it has been shown that a single post-interferon-β (IFNβ) injection measurement of myxovirus-protein-A (MxA) mRNA correlates with IFNβ bioactivity in IFNβ treated patients with multiple sclerosis (MS), we had previously validated an assay for its quantification. Methods: We introduced a real-time PCR relative quantification assay into routine clinical practice and measured MxA mRNA expression in 564 samples from 500 unselected IFNβ treated MS patients over a 4-year period. Results: We confirmed that the assay is reproducible over time, and found that the percentage of patients lacking MxA mRNA induction is comparable to that described in studies performed worldwide after patient selection by pre-screening for the presence of anti-IFNβ antibodies. Conclusions: In view of its simplicity and reproducibility, this MxA assay is an alternative to anti-IFNβ antibody determinations for use in routine clinical practice. Clin Chem Lab Med 2010;48:1235–8.