Papers by Carlos Carrasco
Immunology, 2002
Macrophages play critical roles in innate defences against virus infections, particularly pertine... more Macrophages play critical roles in innate defences against virus infections, particularly pertinent to the rapid immune response required following emergency vaccination against foot-and-mouth disease virus (FMDV). Consequently, macrophage-FMDV interaction was studied in vitro, in the absence of specific antibodies, to mimic the animal early postvaccination. A gradual loss of infectivity and viral antigen was observed over 48 hr, and no evidence of productive virus replication was found. From the pathological viewpoint, an important observation was that the majority of macrophages carried infectious virus for at least 10 hr. Pronase and mild acid treatments showed the virus to be primarily on the cell surface during the first 4 hr. Thereafter, it became internalized (pronase-and pH resistant), but remained infectious for 10 -24 hr. The internalization process was dependent on microfilament activity, while the survival of infectious virus related to live virus-dependent inhibition of macrophage protein synthesis. Infectious centre assays demonstrated that this infectious virus -whether on the cell surface or internalized -was actually being released from the cells. This is interesting considering that FMDV is highly pH labile. Together, these characteristics suggest that the virus had been internalized by a process such as macropinocytosis, and fusion with endosomes was delayed or impaired. This mechanism whereby the virus could 'piggyback' on or in the macrophage, becoming internalized but not degraded for at least 10 hr, are important considerations in FMD pathogenesis. Such 'virus-transporting' macrophages would be in a position to carry infectious FMDV to different sites in the body, where it could be released to infect other cells for replication.
Immunology Letters, 2007
During in vitro investigations on the interaction of classical swine fever virus (CSFV) -an immun... more During in vitro investigations on the interaction of classical swine fever virus (CSFV) -an immunosuppressive viral pathogen -with monocytederived dendritic cells (MoDC) a soluble factor with a strong anti-proliferative activity for T lymphocytes was found. This activity, with an inhibitory dilution 50% (ID 50 ) of 10 3 -10 7 , was induced after virus infection of monocytes differentiating into DC. UV-inactivation of the supernatants and blocking experiments with a monoclonal antibody against the E2 envelope protein of CSFV initially indicated a virus-dependency. However, further investigations including filtration and centrifugation experiments as well as antibiotic treatment demonstrated the involvement of mycoplasma. This was confirmed by a Hoechst 33258 staining, PCR and mycoplasma cultures-Mycoplasma hyorhinis was identified as the contaminant. Elucidation of a mycoplasma presence occurred under conditions in which the original virus stocks prepared in SK6 cells were negative for mycoplasma using the above tests. Moreover, conventional passage of the virus on the SK6 cells used for this purpose did not reveal any mycoplasma. It was the passage of virus in MoDC rather than SK6 cells that was required to expose the contamination. Three passages of the anti-proliferative supernatants on MoDC cultures increased the ID 50 10 3 -fold; only when these MoDC-derived supernatants were employed was the mycoplasma contaminant also detectable on SK6 cells. In conclusion, these data demonstrate that regular testing of cell lines and virus stocks for mycoplasma does not necessarily identify their presence, and that application of passage in MoDC cultures could prove an aid for identifying initially undetectable levels of mycoplasma contamination. (A. Summerfield). phocytes isolated from CSFV-infected pigs do not respond to mitogen stimulation . Although the lymphocytes are the major target in terms of immunological dysfuntion, the cells of the myeloid lineage -particularly monocytes, macrophages and DC -are the early targets for virus infection and replication in vivo and in vitro .
Veterinary Immunology and Immunopathology, 2000
Porcine Alv-Mphi from bronchoalveolar lavages were tested for their function in an in vitro foot-... more Porcine Alv-Mphi from bronchoalveolar lavages were tested for their function in an in vitro foot-and-mouth disease virus (FMDV)-specific lymphoproliferative recall response. The Alv-Mphi were seen to be poor accessory cells when compared with peripheral blood monocytes. This poor capacity was evident despite an efficient expression of SLA-DR region antigens, and other co-stimulatory adhesion molecules. It was noted that Alv-Mphi secrete relatively little interleukin 1 (IL-1beta), with or without LPS induction, even though mRNA for the cytokine could be detected. In contrast, blood monocytes with their effective accessory activity were potent secretors of IL-1. Although this IL-1beta would be important with respect to the accessory capacity of monocytic cells, it was noted that the absence of bioactive IL-1 from the Alv-Mpi cultures was not solely responsible for their poor accessory function. In fact, the Alv-Mphi produced factors which not only inhibited IL-1 bioactivity, but were also responsible for a clear suppression of lymphoproliferation. This suppressor activity was dependent on the type of monocytic cell present in the culture, being more prominent when "scavenger" phagocytes were present. Thus, the major role of Alv-Mphi s not as an accessory cell akin to monocytes, but as both a scavenger cell, related to Mphi derived from monocytes in the absence of inflammatory signals, and an immunoregulatory cell.
Journal of Immunological Methods, 2003
Porcine haematological studies have been hampered by the lack of monoclonal antibodies against po... more Porcine haematological studies have been hampered by the lack of monoclonal antibodies against porcine CD34 or CD117 expressed on haematological progenitors. The present report describes the enumeration, phenotyping and isolation of porcine haematopoietic progenitor cells expressing stem cell factor (SCF, c-kit ligand) receptor (c-kit, CD117). Recombinant porcine (rp) SCF and granulocyte-macrophage colony-stimulating factor (GM-CSF) were expressed in the mammalian HEK293 cell-based expression system. Both were biologically active and induced the proliferation of the human erythroleukemic cell line TF-1, as well as of porcine bone marrow haematopoietic cells (BMHC), in a concentration-dependent manner. The effect of rpSCF on BMHC proliferation was synergistic with rpGM-CSF. Furthermore, rpSCF had a synergistic effect on the generation of BMHCderived dendritic cells (DC) induced by GM-CSF and TNF-a. RpSCF was expressed with a 6-histidine epitope, permitting both its purification and immunological detection. Binding studies with BMHC demonstrated ligation of SCF to 4 -11% of BMHC. These cells represented the SWC3 low/ À SWC8 À BMHC subset, with characteristics of immature proliferative progenitor BMHC. In contrast, no expression was noted on the SWC3 + SWC8 À monocytic, the SWC3 + SWC8 + granulocytic or the SWC3 À SWC8 + B cell lineage cells. Using magnetic or fluorescence-activated cell sorting, SCF-ligating BMHC were enriched for pluripotent progenitor cells. In this manner, porcine haematological studies can be pursued in a detailed manner not before possible. D
Immunology, 2005
Viral interactions with dendritic cells (DCs) have important consequences for immune defence func... more Viral interactions with dendritic cells (DCs) have important consequences for immune defence function. Certain single-stranded DNA viruses that associate with a number of species, including humans and pigs, exhibit interesting characteristics in this context. Porcine circovirus type 2 (PCV2) can persist within myeloid DCs in the absence of virus replication. Internalization was observed with both conventional blood DCs and plasmacytoid DCs [natural interferon-producing cells (NIPCs)], as well as DC precursors. This PCV2–DC interaction neither induced nor inhibited DC differentiation. The maturation of myeloid DCs induced by a cocktail of interferon-α/tumour necrosis factor-α (IFN-α/TNF-α), and the ability to process and present antigen to T lymphocytes, remained intact in the presence of PCV2. The virus was clearly internalized by the DCs, a process noted with both mature and immature cells. This suggested a non-macropinocytic uptake, confirmed by an insensitivity to wortmannin but sensitivity to cytochalasin D, chlorpromazine and bafilomycin. Nevertheless, PCV2 was immunomodulatory, being effected through the reaction of NIPC to danger signals. When NIPCs responded to the CpG-oligonucleotide (CpG-ODN), their costimulatory function which induces myeloid DC maturation was clearly impaired by the presence of PCV2. This was caused by a PCV2-induced inhibition of the IFN-α and TNF-α normally produced following interaction with CpG-ODN. Thus, the immunomodulatory activity of PCV2 is mediated through the disruption of NIPC function. This would impair the maturation of associated myeloid DC and have major implications for the efficient recognition of viral and bacterial danger signals, favouring the establishment of infections additional to that of PCV2.
Immunology, 2003
Peripheral blood contains two major particular infrequent dendritic cells (DC) subsets linking th... more Peripheral blood contains two major particular infrequent dendritic cells (DC) subsets linking the innate and speci®c immune system, the myeloid DC and plasmacytoid DC equivalent to the natural interferon-producing cells (NIPC). The functional characterization of these cells demands large volumes of blood, making a large animal model more appropriate and bene®cial for certain studies. Here, two subsets of porcine blood mononuclear cells expressing swine workshop cluster 3 (SWC3, a SIRP family member), are described and compared to monocytes. The blood DC specialized in T-cell stimulation were major histocompatibility complex (MHC) class II , CD80/86 , CD1 /± , CD4 À , and in contrast to monocytes CD14 À . A CD16 À and a CD16 subset could be discriminated. Granulocyte± macrophage colony-stimulating factor and interleukin-3 were survival factors for this DC subset, and culture induced an up-regulation of MHC class II and CD80/86. The second subset described, are porcine NIPC, typically CD4 , MHC class II low , CD80/86 low , CD1 À , CD8 À/low , CD16 À/low and CD45RA À/low . Porcine NIPC had high interleukin-3 binding capacity, and survived in response to this cytokine. Their unique function was strong interferon type I secretion after virus stimulation. Both subsets were endocytically active when freshly isolated, and down-regulated this activity after in vitro maturation. Taken together, the present report has delineated porcine blood DC and NIPC, permitting a more detailed understanding of innate immune defences, particularly in response to infections.
Immunology, 2001
Despite the central role that dendritic cells (DC) play in immune regulation and antigen presenta... more Despite the central role that dendritic cells (DC) play in immune regulation and antigen presentation, little is known about porcine DC. In this study, two sources of DC were employed. Bone marrow haematopoietic cell-derived DC (BM-DC) were generated using granulocyte± macrophage colony-stimulating factor (GM-CSF) in the presence or absence of tumour necrosis factor-a (TNF-a). Monocyte-derived DC (Mo-DC) were generated with GM-CSF and interleukin-4 (IL-4). In both systems, non-adherent cells developed with dendritic morphology, expressing high levels of major histocompatibility complex (MHC) class II. The presence of TNF-a increased the BM-DC yield, and enhanced T-cell stimulatory capacity. Both BM-DC and Mo-DC expressed the pan-myeloid marker SWC3, as well as CD1 and CD80/86, but were also CD14 + and CD16 + . The CD16 molecule was functional, acting as a low-af®nity Fc receptor. In contrast, the CD14 on DC appeared to differ functionally from monocyte CD14: attempts to block CD14, in terms of lipopolysaccharide (LPS)-induced procoagulant activity (PCA), failed. The use of TNF-a or LPS for DC maturation induced up-regulation of MHC class II and/or CD80/86, but also CD14. Allogeneic mixed leucocyte reactions and staphylococcal enterotoxin B antigen presentation assays demonstrated that these DC possessed potent T-cell stimulatory capacity. No T helper cell polarization was noted. Both the BM-DC and the Mo-DC induced a strong interferon-c and IL-4 response. Taken together, porcine DC generated in vitro possess certain characteristics relating them to DC from other species including humans, but the continued presence of CD14 and CD16 on mature and immature porcine DC was a notable difference.
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Papers by Carlos Carrasco