Regulated expression of P210 Bcr-Abl during embryonic stem cell differentiation stimulates multipotential progenitor expansion and myeloid cell fate

P210 Bcr-Abl is an activated tyrosine kinase oncogene encoded by the Philadelphia chromosome associated with human chronic myelogenous leukemia (CML). The disease represents a clonal disorder arising in the pluripotent hematopoietic stem cell. During the chronic phase, patients present with a dramatic expansion of myeloid cells and a mild anemia. Retroviral gene transfer and transgenic expression in rodents have demonstrated the ability of Bcr-Abl to induce various types of leukemia. However, study of human CML or rodent models has not determined the direct and immediate effects of Bcr-Abl on hematopoietic cells from those requiring secondary genetic or epigenetic changes selected during the pathogenic process. We utilized tetracycline-regulated expression of Bcr-Abl from a promoter engineered for robust expression in primitive stem cells through multilineage blood cell development in combination with the in vitro differentiation of embryonal stem cells into hematopoietic elements. Our results demonstrate that Bcr-Abl expression alone is sufficient to increase the number of multipotent and myeloid lineage committed progenitors in a dose-dependent manner while suppressing the development of committed erythroid progenitors. These effects are reversible upon extinguishing Bcr-Abl expression. These findings are consistent with Bcr-Abl being the sole genetic change needed for the establishment of the chronic phase of CML and provide a powerful system for the analysis of any genetic change that alters cell growth and lineage choices of the hematopoietic stem cell.

Somatic mosaicism in Fanconi anemia: Evidence of genotypic reversion in lymphohematopoietic stem cells

Somatic mosaicism has been observed previously in the lymphocyte population of patients with Fanconi anemia (FA). To identify the cellular origin of the genotypic reversion, we examined each lymphohematopoietic and stromal cell lineage in an FA patient with a 2815–2816ins19 mutation in FANCA and known lymphocyte somatic mosaicism. DNA extracted from individually plucked peripheral blood T cell colonies and marrow colony-forming unit granulocyte–macrophage and burst-forming unit erythroid cells revealed absence of the maternal FANCA exon 29 mutation in 74.0%, 80.3%, and 86.2% of colonies, respectively. These data, together with the absence of the FANCA exon 29 mutation in Epstein–Barr virus-transformed B cells and its presence in fibroblasts, indicate that genotypic reversion, most likely because of back mutation, originated in a lymphohematopoietic stem cell and not solely in a lymphocyte population. Contrary to a predicted increase in marrow cellularity resulting from reversion in a hematopoietic stem cell, pancytopenia was progressive. Additional evaluations revealed a partial deletion of 11q in 3 of 20 bone marrow metaphase cells. By using interphase fluorescence in situ hybridization with an MLL gene probe mapped to band 11q23 to identify colony-forming unit granulocyte–macrophage and burst-forming unit erythroid cells with the 11q deletion, the abnormal clone was exclusive to colonies with the FANCA exon 29 mutation. Thus, we demonstrate the spontaneous genotypic reversion in a lymphohematopoietic stem cell. The subsequent development of a clonal cytogenetic abnormality in nonrevertant cells suggests that ex vivo correction of hematopoietic stem cells by gene transfer may not be sufficient for providing life-long stable hematopoiesis in patients with FA.

Rac and Cdc42 GTPases control hematopoietic stem cell shape, adhesion, migration, and mobilization

Critical to homeostasis of blood cell production by hematopoietic stem/progenitor (HSC/P) cells is the regulation of HSC/P retention within the bone marrow microenvironment and migration between the bone marrow and the blood. Key extracellular regulatory elements for this process have been defined (cell–cell adhesion, growth factors, chemokines), but the mechanism by which HSC/P cells reconcile multiple external signals has not been elucidated. Rac and related small GTPases are candidates for this role and were studied in HSC/P deficient in Rac2, a hematopoietic cell-specific family member. Rac2 appears to be critical for HSC/P adhesion both in vitro and in vivo, whereas a compensatory increase in Cdc42 activation regulates HSC/P migration. This genetic analysis provides physiological evidence of cross-talk between GTPase proteins and suggests that a balance of these two GTPases controls HSC/P adhesion and mobilization in vivo.

Remodeling of the postnatal mouse testis is accompanied by dramatic changes in stem cell number and niche accessibility

Little is known about stem cell biology or the specialized environments or niches believed to control stem cell renewal and differentiation in self-renewing tissues of the body. Functional assays for stem cells are available only for hematopoiesis and spermatogenesis, and the microenvironment, or niche, for hematopoiesis is relatively inaccessible, making it difficult to analyze donor stem cell colonization events in recipients. In contrast, the recently developed spermatogonial stem cell assay system allows quantitation of individual colonization events, facilitating studies of stem cells and their associated microenvironment. By using this assay system, we found a 39-fold increase in male germ-line stem cells during development from birth to adult in the mouse. However, colony size or area of spermatogenesis generated by neonate and adult stem cells, 2–3 months after transplantation into adult tubules, was similar (∼0.5 mm2). In contrast, the microenvironment in the immature pup testis was 9.4 times better than adult testis in allowing colonization events, and the area colonized per donor stem cell, whether from adult or pup, was about 4.0 times larger in recipient pups than adults. These factors facilitated the restoration of fertility by donor stem cells transplanted to infertile pups. Thus, our results demonstrate that stem cells and their niches undergo dramatic changes in the postnatal testis, and the microenvironment of the pup testis provides a more hospitable environment for transplantation of male germ-line stem cells.

High-efficiency retroviral-mediated gene transfer into human and nonhuman primate peripheral blood lymphocytes.

Peripheral blood lymphocytes (PBLs) are primary targets for gene therapy of inherited and acquired disorders of the immune system. We describe the development of an optimized transduction system that provides for high-efficiency retrovirus-mediated gene transfer into primary PBLs. This optimized transduction protocol combines centrifugation of the lymphocytes (1000 x g) at the inception of transduction with phosphate depletion, low-temperature incubation (32 degrees C), and the use of the packaging cell line PG13. Gene marking studies of human and primate PBLs using these optimized transduction conditions demonstrated that the transduction efficiency exceeded 50% of the total lymphocyte population. The optimized transduction efficiency of PBLs with amphotropic retroviral vectors was in excess of 25%. The transduction procedure does not alter phenotype, viability, or expansion of the transduced cells. Our data indicate that this optimized transduction system leads to high-efficiency gene transfer into primary human lymphocytes, which obviates the requirement for selection of transduced cells prior to gene-therapy procedures. Thus, large quantities of healthy retrovirally transduced lymphocytes containing a broad immunological repertoire can be generated for use in clinical protocols. Our results represent a significant improvement in the methodology for the transduction of lymphocytes for gene therapy.

Resistance to human immunodeficiency virus type 1 infection conferred by transduction of human peripheral blood lymphocytes with ribozyme, antisense, or polymeric trans-activation response element constructs.

Human peripheral blood lymphocytes (PBLs) were transduced with a number of recombinant retroviruses including RRz2, an LNL6-based virus with a ribozyme targeted to the human immunodeficiency virus (HIV) tat gene transcript inserted within the 3' region of the neomycin-resistance gene; RASH5, and LNHL-based virus containing an antisense sequence to the 5' leader region of HIV-1 downstream of the human cytomegalovirus promoter; and R20TAR, an LXSN-based virus with 20 tandem copies of the HIV-1 trans-activation response element sequence driven by the Moloney murine leukemia virus long terminal repeat. After G418 selection, transduced PBLs were challenged with the HIV-1 laboratory strain IIIB and a primary clinical isolate of HIV-1, 82H. Results showed that PBLs from different donors could be transduced and that this conferred resistance to HIV-1 infection. For each of the constructs, a reduction of approximately 70% in p24 antigen level relative to the corresponding control-vector-transduced PBLs was observed. Molecular analyses showed constitutive expression of all the transduced genes from the retroviral long terminal repeat, but no detectable transcript was seen from the internal human cytomegalovirus transcript was seen from the internal human cytomegalovirus promoter for the antisense construct. Transduction of, and consequent transgene expression in, PBLs did not impact on the surface expression of either CD4+/CD8+ (measured by flow cytometry) or on cell doubling time (examined by [3H]thymidine uptake). These results indicate the potential utility of these anti-HIV-1 gene therapeutic agents and show the preclinical value of this PBL assay system.

In vitro generation of hematopoietic stem cells from an embryonic stem cell line.

Hematopoietic stem cells (HSC) are unique in that they give rise both to new stem cells (self-renewal) and to all blood cell types. The cellular and molecular events responsible for the formation of HSC remain unknown mainly because no system exists to study it. Embryonic stem (ES) cells were induced to differentiate by coculture with the stromal cell line RP010 and the combination of interleukin (IL) 3, IL-6, and F (cell-free supernatants from cultures of the FLS4.1 fetal liver stromal cell line). Cell cytometry analysis of the mononuclear cells produced in the cultures was consistent with the presence of PgP-1+ Lin- early hematopoietic (B-220- Mac-1- JORO 75- TER 119-) cells and of fewer B-220+ IgM- B-cell progenitors and JORO 75+ T-lymphocyte progenitors. The cell-sorter-purified PgP-1+ Lin- cells produced by induced ES cells could repopulate the lymphoid, myeloid, and erythroid lineages of irradiated mice. The ES-derived PgP-1+ Lin- cells must possess extensive self-renewal potential, as they were able to produce hematopoietic repopulation of secondary mice recipients. Indeed, marrow cells from irradiated mice reconstituted (15-18 weeks before) with PgP-1+ Lin- cell-sorter-purified cells generated by induced ES cells repopulated the lymphoid, myeloid, and erythroid lineages of secondary mouse recipients assessed 16-20 weeks after their transfer into irradiated secondary mice. The results show that the culture conditions described here support differentiation of ES cells into hematopoietic cells with functional properties of HSC. It should now be possible to unravel the molecular events leading to the formation of HSC.

Valutazione della risposta immunitaria cellulare e fenotipizzazione linfocitaria nel suino in corso di infezione naturale da virus della PRRS (“Porcine Reproductive and Respiratory Syndrome”) e dopo stimolazione di PBMC (“Peripheral Blood Mononuclear Cells”) in vitro con Peptide Killer (KP)

SUMMARY The Porcine Reproductive and Respiratory Syndrome (PRRS) virus is one of the most spread pathogens in swine herds all over the world and responsible for a reproductive and respiratory syndrome that causes severe heath and economical problems. This virus emerged in late 1980’s but although about 30 years have passed by, the knowledge about some essential facets related to the features of the virus (pathogenesis, immune response, and epidemiology) seems to be still incomplete. Taking into account that the development of modern vaccines is based on how innate and acquire immunity react, a more and more thorough knowledge on the immune system is needed, in terms of molecular modulation/regulation of the inflammatory and immune response upon PRRSV infection. The present doctoral thesis, which is divided into 3 different studies, is aimed to increase the knowledge about the interaction between the immune system and the PRRS virus upon natural infection. The objective of the first study entitled “Coordinated immune response of memory and cytotoxic T cells together with IFN-γ secreting cells after porcine reproductive and respiratory syndrome virus (PRRSV) natural infection in conventional pigs” was to evaluate the activation and modulation of the immune response in pigs naturally infected by PRRSV compared to an uninfected control group. The course of viremia was evaluated by PCR, the antibody titres by ELISA, the number of IFN-γ secreting cells (IFN- SC) by an ELISPOT assay and the immunophenotyping of some lymphocyte subsets (cytotoxic cells, memory T lymphocytes and cytotoxic T lymphocytes) by flow cytometry. The results showed that the activation of the cell-mediated immune response against PRRSV is delayed upon infection and that however the levels of IFN-γ SC and lymphocyte subsets subsequently increase over time. Furthermore, it was observed that the course of the different immune cell subsets is time-associated with the levels of PRRSV-specific IFN-γ SC and this can be interpreted based on the functional role that such lymphocyte subsets could have in the specific production/secretion of the immunostimulatory cytokine IFN-γ. In addition, these data support the hypothesis that the age of the animals upon the onset of infection or the diverse immunobiological features of the field isolate, as typically hypothesized during PRRSV infection, are critical conditions able to influence the qualitative and quantitative course of the cell-mediated immune response during PRRSV natural infection. The second study entitled “Immune response to PCV2 vaccination in PRRSV viremic piglets” was aimed to evaluate whether PRRSV could interfere with the activation of the immune response to PCV2 vaccination in pigs. In this trial, 200 pigs were divided into 2 groups: PCV2-vaccinated (at 4 weeks of age) and PCV2-unvaccinated (control group). Some piglets of both groups got infected by PRRSV, as determined by PRRSV viremia detection, so that 4 groups were defined as follows: PCV2 vaccinated - PRRSV viremic PCV2 vaccinated - PRRSV non viremic PCV2 unvaccinated - PRRSV viremic PCV2 unvaccinated - PRRSV non viremic The following parameters were evaluated in the 4 groups: number of PCV2-specific IFN-γ secreting cells, antibody titres by ELISA and IPMA. Based on the immunological data analysis, it can be deduced that: 1) The low levels of antibodies against PCV2 in the PCV2-vaccinated – PRRSV-viremic group at vaccination (4 weeks of age) could be related to a reduced colostrum intake influenced by PRRSV viremia. 2) Independently of the viremia status, serological data of the PCV2-vaccinated group by ELISA and IPMA does not show statistically different differences. Consequently, it can be be stated that, under the conditions of the study, PRRSV does not interfere with the antibody response induced by the PCV2 vaccine. 3) The cell-mediated immune response in terms of number of PCV2-specific IFN-γ secreting cells in the PCV2-vaccinated – PRRSV-viremic group seems to be compromised, as demonstrated by the reduction of the number of IFN-γ secreting cells after PCV2 vaccination, compared to the PCV2-vaccinated – PRRSV-non-viremic group. The data highlight and further support the inhibitory role of PRRSV on the development and activation of the immune response and highlight how a natural infection at early age can negatively influence the immune response to other pathogens/antigens. The third study entitled “Phenotypic modulation of porcine CD14+ monocytes, natural killer/natural killer T cells and CD8αβ+ T cell subsets by an antibody-derived killer peptide (KP)” was aimed to determine whether and how the killer peptide (KP) could modulate the immune response in terms of activation of specific lymphocyte subsets. This is a preliminary approach also aimed to subsequently evaluate such KP with a potential antivural role or as adjuvant. In this work, pig peripheral blood mononuclear cells (PBMC) were stimulated with three KP concentrations (10, 20 and 40 g/ml) for three time points (24, 48 and 72 hours). TIME POINTS (hours) KP CONCENTRATIONS (g/ml) 24 0-10-20-40 48 0-10-20-40 72 0-10-20-40 By using flow cytometry, the qualitative and quantitative modulation of the following immune subsets was evaluated upon KP stimulation: monocytes, natural killer (NK) cells, natural killer T (NKT) cells, and CD4+ and CD8α/β+ T lymphocyte subsets. Based on the data, it can be deduced that: 1) KP promotes a dose-dependent activation of monocytes, particularly after 24 hours of stimulation, by inducing a monocyte phenotypic and maturation shift mainly involved in sustaining the innate/inflammatory response. 2) KP induces a strong dose-dependent modulation of NK and NKT cells, characterized by an intense increase of the NKT cell fraction compared to NK cells, both subsets involved in the antibody-dependent cell cytotoxicity (ADCC). The increase is observed especially after 24 hours of stimulation. 3) KP promotes a significant activation of the cytotoxic T lymphocyte subset (CTL). 4) KP can modulate both the T helper and T cytotoxic phenotype, by inducing T helper cells to acquire the CD8α thus becoming doube positive cells (CD4+CD8+) and by inducing CTL (CD4-CD8+high) to acquire the double positive phenotype (CD4+CD8α+high). Therefore, KP may induce several effects on different immune cell subsets. For this reason, further research is needed aimed at characterizing each “effect” of KP and thus identifying the best use of the decapeptide for vaccination practice, therapeutic purposes or as vaccine adjuvant. RIASSUNTO Il virus della PRRS (Porcine Reproductive Respiratory Syndrome) è uno dei più diffusi agenti patogeni negli allevamenti suini di tutto il mondo, responsabile di una sindrome riproduttiva e respiratoria causa di gravi danni ad impatto sanitario ed economico. Questo virus è emerso attorno alla fine degli anni ’80 ma nonostante siano passati circa una trentina di anni, le conoscenze su alcuni punti essenziali che riguardano le caratteristiche del virus (patogenesi, risposta immunitaria, epidemiologia) appaiono ancora spesso incomplete. Considerando che lo sviluppo dei vaccini moderni è basato sui principi dell’immunità innata e acquisita è essenziale una sempre più completa conoscenza del sistema immunitario inteso come modulazione/regolazione molecolare della risposta infiammatoria e immunitaria in corso di tale infezione. Questo lavoro di tesi, suddiviso in tre diversi studi, ha l’intento di contribuire all’aumento delle informazioni riguardo l’interazione del sistema immunitario, con il virus della PRRS in condizioni di infezione naturale. L’obbiettivo del primo studio, intitolato “Associazione di cellule memoria, cellule citotossiche e cellule secernenti IFN- nella risposta immunitaria in corso di infezione naturale da Virus della Sindrome Riproduttiva e Respiratoria del Suino (PRRSV)” è stato di valutare l’attivazione e la modulazione della risposta immunitaria in suini naturalmente infetti da PRRSV rispetto ad un gruppo controllo non infetto. I parametri valutati sono stati la viremia mediante PCR, il titolo anticorpale mediante ELISA, il numero di cellule secernenti IFN- (IFN- SC) mediante tecnica ELISPOT e la fenotipizzazione di alcune sottopopolazioni linfocitarie (Cellule citotossiche, linfociti T memoria e linfociti T citotossici) mediante citofluorimetria a flusso. Dai risultati ottenuti è stato possibile osservare che l’attivazione della risposta immunitaria cellulo-mediata verso PRRSV appare ritardata durante l’infezione e che l’andamento, in termini di IFN- SC e dei cambiamenti delle sottopopolazioni linfocitarie, mostra comunque degli incrementi seppur successivi nel tempo. E’ stato inoltre osservato che gli andamenti delle diverse sottopopolazioni immunitarie cellulari appaiono temporalmente associati ai livelli di IFN- SC PRRSV-specifiche e ciò potrebbe essere interpretato sulla base del ruolo funzionale che tali sottopopolazioni linfocitarie potrebbero avere nella produzione/secrezione specifica della citochina immunoattivatrice IFN-. Questi dati inoltre supportano l’ipotesi che l’età degli animali alla comparsa dell’infezione o, come tipicamente ipotizzato nell’infezione da PRRSV, le differenti caratteristiche immunobiologiche dell’isolato di campo, sia condizioni critiche nell’ influenzare l’andamento qualitativo e quantitativo della risposta cellulo-mediata durante l’infezione naturale da PRRSV. Il secondo studio, dal titolo “Valutazione della risposta immunitaria nei confronti di una vaccinazione contro PCV2 in suini riscontrati PRRSV viremici e non viremici alla vaccinazione” ha avuto lo scopo di valutare se il virus della PRRS potesse andare ad interferire sull’attivazione della risposta immunitaria indotta da vaccinazione contro PCV2 nel suino. In questo lavoro sono stati arruolati 200 animali divisi in due gruppi, PCV2 Vaccinato (a 4 settimane di età) e PCV2 Non Vaccinato (controllo negativo). Alcuni suinetti di entrambi i gruppi, si sono naturalmente infettati con PRRSV, come determinato con l’analisi della viremia da PRRSV, per cui è stato possibile creare quattro sottogruppi, rispettivamente: PCV2 vaccinato - PRRSV viremico PCV2 vaccinato - PRRSV non viremico PCV2 non vaccinato - PRRSV viremico PCV2 non vaccinato - PRRSV non viremico Su questi quattro sottogruppi sono stati valutati i seguenti parametri: numero di cellule secernenti IFN- PCV2 specifiche, ed i titoli anticorpali mediante tecniche ELISA ed IPMA. Dall’analisi dei dati immunologici derivati dalle suddette tecniche è stato possibile dedurre che:  I bassi valori anticorpali nei confronti di PCV2 del gruppo Vaccinato PCV2-PRRSV viremico già al periodo della vaccinazione (4 settimane di età) potrebbero essere messi in relazione ad una ridotta assunzione di colostro legata allo stato di viremia da PRRSV  Indipendentemente dallo stato viremico, i dati sierologici del gruppo vaccinato PCV2 provenienti sia da ELISA sia da IPMA non mostrano differenze statisticamente significative. Di conseguenza è possibile affermare che in questo caso PRRSV non interferisce con la risposta anticorpale promossa dal vaccino PCV2.  La risposta immunitaria cellulo-mediata, intesa come numero di cellule secernenti IFN- PCV2 specifiche nel gruppo PCV2 vaccinato PRRS viremico sembra essere compromessa, come viene infatti dimostrato dalla diminuzione del numero di cellule secernenti IFN- dopo la vaccinazione contro PCV2, comparata con il gruppo PCV2 vaccinato- non viremico. I dati evidenziano ed ulteriormente sostengono il ruolo inibitorio del virus della PRRSV sullo sviluppo ed attivazione della risposta immunitaria e come un infezione naturale ad età precoci possa influenzare negativamente la risposta immunitaria ad altri patogeni/antigeni. Il terzo studio, intitolato “Modulazione fenotipica di: monociti CD14+, cellule natural killer (NK), T natural killer (NKT) e sottopopolazioni linfocitarie T CD4+ e CD8+ durante stimolazione con killer peptide (KP) nella specie suina” ha avuto come scopo quello di stabilire se e come il Peptide Killer (KP) potesse modulare la risposta immunitaria in termini di attivazione di specifiche sottopopolazioni linfocitarie. Si tratta di un approccio preliminare anche ai fini di successivamente valutare tale KP in un potenziale ruolo antivirale o come adiuvante. In questo lavoro, periferal blood mononuclear cells (PBMC) suine sono state stimolate con KP a tre diverse concentrazioni (10, 20 e 40 g/ml) per tre diversi tempi (24, 48 e 72 ore). TEMPI DI STIMOLAZIONE (ore) CONCENTRAZIONE DI KP (g/ml) 24 0-10-20-40 48 0-10-20-40 72 0-10-20-40 Mediante la citometria a flusso è stato dunque possibile analizzare il comportamento qualitativo e quantitativo di alcune sottopopolazioni linfocitarie sotto lo stimolo del KP, tra cui: monociti, cellule Natural Killer (NK), cellule T Natural Killer (NKT) e linfociti T CD4 e CD8+. Dai dati ottenuti è stato possibile dedurre che: 1) KP promuove un’attivazione dei monociti dose-dipendente in particolare dopo 24 ore di stimolazione, inducendo uno “shift” fenotipico e di maturazione monocitaria maggiormente coinvolto nel sostegno della risposta innata/infiammatoria. 2) KP induce una forte modulazione dose-dipendente di cellule NK e NKT con un forte aumento della frazione delle cellule NKT rispetto alle NK, sottopopolazioni entrambe coinvolte nella citotossicità cellulare mediata da anticorpi (ADCC). L’aumento è riscontrabile soprattutto dopo 24 ore di stimolazione. 3) KP promuove una significativa attivazione della sottopopolazione del linfociti T citotossici (CTL). 4) Per quanto riguarda la marcatura CD4+/CD8+ è stato dimostrato che KP ha la capacità di modulare sia il fenotipo T helper che T citotossico, inducendo le cellule T helper ad acquisire CD8 diventando quindi doppio positive (CD4+CD8+) ed inducendo il fenotipo CTL (CD4-CD8+high) ad acquisire il fenotipo doppio positivo (CD4+CD8α+high). Molti dunque potrebbero essere gli effetti che il decapeptide KP potrebbe esercitare sulle diverse sottopopolazioni del sistema immunitario, per questo motivo va evidenziata la necessità di impostare e attuare nuove ricerche che portino alla caratterizzazione di ciascuna “abilità” di KP e che conducano successivamente alla scoperta del migliore utilizzo che si possa fare del decapeptide sia dal punto di vista vaccinale, terapeutico oppure sotto forma di adiuvante vaccinale.

Immune biomarkers in acute graft-versus-host disease

Trabalho Final do Curso de Mestrado Integrado em Medicina, Faculdade de Medicina, Universidade de Lisboa, 2014

Donor treatment with pegylated G-CSF augments the generation of IL-10-producing regulatory T cells and promotes transplantation tolerance

We investigated whether the protection from graft-versus-host disease (GVHD) afforded by donor treatment with granulocyte colony-stimulating factor (G-CSF) could be enhanced by dose escalation. Donor treatment with human G-CSIF prevented GVHD in the B6 --> B6D2F1 murine model in a dose-dependent fashion, and murine G-CSF provided equivalent protection from GVHD at 10-fold lower doses. Donor pretreatment with a single dose of pegylated G-CSF (peg-G-CSF) prevented GVHD to a significantly greater extent than standard G-CSIF (survival, 75% versus 11%, P < .001). Donor T cells from peg-G-CSF-treated donors failed to proliferate to alloantigen and inhibited the responses of control T cells in an interleukin 10 (IL-10)-dependent-fashion in vitro. T cells from peg-GCSF-treated IL-10(-/-) donors induced lethal GVHD; T cells from peg-G-CSF-treated wild-type (wt) donors promoted long-term survival. Whereas T cells from peg-G-CSF wt donors were able to regulate GVHD induced by T cells from control-treated donors, T cells from G-CSF-treated wt donors and peg-G-CSF-treated IL-10(-/-) donors did not prevent mortality. Thus, peg-G-CSF is markedly superior to standard G-CSF for the prevention of GVHD following allogeneic stem cell transplantation (SCT), due to the generation of IL-10-producing regulatory T cells. These data support prospective clinical trials of peg-G-CSF-mobilized allogeneic blood SCT. (C) 2004 by The American Society of Hematology.

A population of HLA-DR+ immature cells accumulates in the blood dendritic cell compartment of patients with different types of cancer

Dendritic cell (DC) defects are an important component of immunosuppression in cancer. Here, we assessed whether cancer could affect circulating DC populations and its correlation with tumor progression. The blood DC compartment was evaluated in 136 patients with breast cancer, prostate cancer, and malignant glioma. Phenotypic, quantitative, and functional analyses were performed at various stages of disease. Patients had significantly fewer circulating myeloid (CD11c(+)) and plasmacytoid (CD123(+)) DC, and a concurrent accumulation of CD11c(-)CD123(-) immature cells that expressed high levels of HLA-DR+ immature cells (DR+IC). Although DR+IC exhibited a limited expression of markers ascribed to mature hematopoietic lineages, expression of HLA-DR, CD40, and CD86 suggested a role as antigen-presenting cells. Nevertheless, DR+IC had reduced capacity to capture antigens and elicited poor proliferation and interferon-gamma secretion by T-lymphocytes. Importantly, increased numbers of DR+IC correlated with disease status. Patients with metastatic breast cancer showed a larger number of DR+IC in the circulation than patients with local/nodal disease. Similarly, in patients with fully resected glioma, the proportion of DR+IC in the blood increased when evaluation indicated tumor recurrence. Reduction of blood DC correlating with accumulation of a population of immature cells with poor immunologic function may be associated with increased immunodeficiency observed in cancer.

Significant alterations in peripheral blood lymphocyte subsets in patients with somatoform disorder

Objective: Previous studies have suggested that somatoform disorders (SFD) might be associated with changes in the function of the central and autonomic nervous systems. The aim of this study was to examine the possible immunological differences between SFD and healthy controls. Methods: Twenty-four patients with SFD and 13 healthy individuals completed the psychological questionnaires to assess symptom reporting [Symptom Checklist-90 Revised (SCL-90-R)] and to diagnose for SFD [Screening for Somatoform Symptoms scale (SOMS-scale)]. Participants also provided a blood sample taken in the morning, which was analysed with an automated cell counter to determine the number of leucocytes per μl and with flow cytometry to determine lymphocyte subsets. Results: With the exception of a higher T4/T8 ratio in the patient group, which was mainly because of lower CD8 counts, there were no significant differences in the absolute number of lymphocytes (subsets) between patients with SFD and healthy subjects. A positive correlation between B-lymphocyte subsets (CD19+CD22+, CD19+CD5+, CD19+CD3-) to all scales of the SCL-90-R, except somatisation, were found in SFD. Additionally, a positive correlation was found in SFD between CD14+CD16+ monocytes and somatisation (0.573) on the SCL-90-R scale. Conclusion: These data indicate that patients with SFD have an enhanced humoral immunity as shown by increased B-cell numbers and furthermore an elevated T4/T8 ratio because of lower CD8 suppressor cells. Further studies will be required to determine whether these alterations in lymphocyte subsets are directly involved in the pathophysiology of SFD. © 2007 Blackwell Munksgaard.

Stem cell therapies for ischemic cardiovascular diseases

Myocardial infarction results in loss of cardiac muscle and deficiency in cardiac performance. Likewise, peripheral artery disease can result in critical limb ischemia leading to reduced mobility, non-healing ulcers, gangrene and amputation. Both of these common conditions diminish quality of life and enhance risk of mortality. Successful advances in treatment have led to more people surviving incidences of myocardial infarction or living with peripheral artery disease. However, the current treatments are inadequate in repairing ischemic tissue. Over the last 5 years, a vast number of patents have been submitted concerning the use of stem cells, which correlates with the exponential growth in stem cell publications. Exploiting stem cell therapy offers a real potential in replacing ischemic tissue with functional cells. In this paper, we review recent patents concerning stem cell therapy that have the potential to provide or potentiate novel treatment for ischemic cardiovascular disease. In addition, we evaluate the promise of the inventions by describing some clinical trials that are currently taking place, as well as considering how current research on ischemic cardiovascular disease may change the patent landscape in the future.

Development and validation of a rapid, aldehyde dehydrogenase bright-based cord blood potency assay.

Banked, unrelated umbilical cord blood provides access to hematopoietic stem cell transplantation for patients lacking matched bone marrow donors, yet 10% to 15% of patients experience graft failure or delayed engraftment. This may be due, at least in part, to inadequate potency of the selected cord blood unit (CBU). CBU potency is typically assessed before cryopreservation, neglecting changes in potency occurring during freezing and thawing. Colony-forming units (CFUs) have been previously shown to predict CBU potency, defined as the ability to engraft in patients by day 42 posttransplant. However, the CFU assay is difficult to standardize and requires 2 weeks to perform. Consequently, we developed a rapid multiparameter flow cytometric CBU potency assay that enumerates cells expressing high levels of the enzyme aldehyde dehydrogenase (ALDH bright [ALDH(br)]), along with viable CD45(+) or CD34(+) cell content. These measurements are made on a segment that was attached to a cryopreserved CBU. We validated the assay with prespecified criteria testing accuracy, specificity, repeatability, intermediate precision, and linearity. We then prospectively examined the correlations among ALDH(br), CD34(+), and CFU content of 3908 segments over a 5-year period. ALDH(br) (r = 0.78; 95% confidence interval [CI], 0.76-0.79), but not CD34(+) (r = 0.25; 95% CI, 0.22-0.28), was strongly correlated with CFU content as well as ALDH(br) content of the CBU. These results suggest that the ALDH(br) segment assay (based on unit characteristics measured before release) is a reliable assessment of potency that allows rapid selection and release of CBUs from the cord blood bank to the transplant center for transplantation.

Granulocyte-colony-stimulating factor mobilizes bone marrow stem cells in patients with subacute ischemic stroke: the Stem Cell Trial of Recovery EnhanceMent After Stroke (STEMS) Pilot Randomized, Controlled Trial (ISRCTN 16784092)

Background and Purpose - Loss of motor function is common after stroke and leads to significant chronic disability. Stem cells are capable of self-renewal and of differentiating into multiple cell types, including neurones, glia, and vascular cells. We assessed the safety of granulocyte-colony-stimulating factor (G-CSF) after stroke and its effect on circulating CD34 stem cells. Methods - We performed a 2-center, dose-escalation, double-blind, randomized, placebo-controlled pilot trial (ISRCTN 16784092) of G-CSF (6 blocks of 1 to 10 g/kg SC, 1 or 5 daily doses) in 36 patients with recent ischemic stroke. Circulating CD34 stem cells were measured by flow cytometry; blood counts and measures of safety and functional outcome were also monitored. All measures were made blinded to treatment. Results - Thirty-six patients, whose mean SD age was 768 years and of whom 50% were male, were recruited. G-CSF (5 days of 10 g/kg) increased CD34 count in a dose-dependent manner, from 2.5 to 37.7 at day 5 (area under curve, P0.005). A dose-dependent rise in white cell count (P0.001) was also seen. There was no difference between treatment groups in the number of patients with serious adverse events: G-CSF, 7/24 (29%) versus placebo 3/12 (25%), or in their dependence (modified Rankin Scale, median 4, interquartile range, 3 to 5) at 90 days. Conclusions - ”G-CSF is effective at mobilizing bone marrow CD34 stem cells in patients with recent ischemic stroke. Administration is feasible and appears to be safe and well tolerated. The fate of mobilized cells and their effect on functional outcome remain to be determined. (Stroke. 2006;37:2979-2983.)