Tracking T and B cells from two-photon microscopy imaging using constrained SMC clusters.

This paper describes a novel software algorithm, called constrained Sequential Monte Carlo (SMC) clusters, for tracking a large collection of individual cells from intra-vital two-photon microscopy image sequences. We show how our method and software tool, implemented in python, is useful for quantifying the motility of T and B lymphocytes involved in an immune response vs lymphocytes under non immune conditions. We describe the theory behind our algorithm and briefly discuss the architecture of our software. Finally, we demonstrate both the functionality and utility of software by applying it to two practical examples from videos displaying lymphocyte motility in B cell zones (follicles) and T cell zones of lymph nodes.

Protective immunity against Trypanosoma cruzi provided by oral immunization with Phytomonas serpens: role of nitric oxide.

We have previously demonstrated that Phytomonas serpens, a tomato parasite, shares antigens with Trypanosoma cruzi, the protozoa that causes Chagas' disease. These antigens are recognized by human sera and induce protective immunity in Balb/c mice. In the present study, inducible nitric oxide synthase (iNOS) knockout (KO) mice and C57BL/6 mice treated with the nitric oxide inhibitor, aminoguanidine (AG, 50 mg kg(-1)) infected with T. cruzi, were used to demonstrate the role of nitric oxide (NO) to host protection against T. cruzi infection achieved by oral immunization with live P. serpens. A reduction in parasitaemia and an increase in survival were observed in C57BL/6 infected mice and previously immunized with P. serpens, when compared to non-immunized mice. iNOS (KO) mice immunized and C57BL/6 immunized and treated with AG presented parasitaemia and mortality rates comparable to those of infected and non-immunized mice. By itself, immunization with P. serpens did not induce inflammation in the myocardium, but C57BL/6 mice so immunized showed fewer amastigotes nests in the heart following an acute T. cruzi infection than those in non-immunized mice. These results suggest that protective immunity against T. cruzi infection induced by immunization with P. serpens is dependent upon enhanced NO production during the acute phase of T. cruzi infection.

Bone marrow-derived macrophages grown in GM-CSF or M-CSF differ in their ability to produce IL-12 and to induce IFN-gamma production after stimulation with Trypanosoma cruzi antigens.

Trypanosoma cruzi is the etiological agent of Chagas' disease in man. Control of parasitism at the beginning of experimental infection depends on cytokine-activated macrophages that synthesize nitric oxide (NO). We investigated macrophage populations derived in the presence of M-CSF (M-MØ) or GM-CSF (GM-MØ) regarding their ability to control intracellular parasitism by T. cruzi and to synthesize IL-12 and NO. Both macrophage populations supported intracellular multiplication of the parasite; when activated by IFN-gamma, GM-MØ exerted better control of parasitism. Stimulation of GM-MØ with T. cruzi or Staphylococcus aureus resulted in IL-12 production and higher levels of NO synthesis in comparison with stimulated M-MØ. Mice immunized with parasite-Ag-pulsed GM-MØ but not with pulsed M-MØ had increased IFN-gamma and IL-2 production in lymph nodes. However, when immunization was followed by infection with live parasites, transient elevation of IFN-gamma production was observed in both GM-MØ- and M-MØ-immunized mice, without reduction of blood parasite levels.

Most parasite-specific CD8+ cells in Trypanosoma cruzi-infected chronic mice are down-regulated for T-cell receptor-alphabeta and CD8 molecules.

The present study shows that CD8+ T lymphocytes expressing low levels of T-cell receptor (TCR)alphabeta, CD8 and CD3 accumulate in the spleen, blood, peritoneum and liver, but not in the lymph nodes of mice chronically infected with Trypanosoma cruzi. Analysis of spleen lymphocytes reveals that most CD8LOW TCRLOW T cells have an experienced phenotype (CD44HIGH CD62LLOW and CD45RA,B,CLOW). These cells have small size, lack activation markers such as CD69, CD25 and CD11b (Mac-1), and do not spontaneously secrete cytokines, suggesting they are at the resting state. When stimulated in vitro with T. cruzi-infected macrophages, TCRLOW CD8LOW T cells behave as parasite-specific memory cells, readily responding with interferon-gamma (IFN-gamma) production. Indeed, among parasite-activated CD8+ lymphocytes, IFN-gamma production was mostly due to TCRLOW CD8LOW cells. Upon in vitro stimulation with anti-CD3/CD28 monoclonal antibodies, down-regulated cells produce IFN-gamma and tumour necrosis factor-alpha, but not interleukin IL-10 or IL-4. Our results indicate that despite parasite persistence, most T. cruzi-specific experienced CD8+ cells are resting. Nevertheless, when encountering infected macrophages these cells differentiate to Tc1 effectors.

Prostaglandins mediate suppression of lymphocyte proliferation and cytokine synthesis in acute Trypanosoma cruzi infection.

Suppression of host lymphoproliferative responses to mitogens and Ag is characteristically seen during acute infection with the protozoan parasite Trypanosoma cruzi. We investigated the reciprocal regulation of prostaglandins (PG), TNF-alpha, and nitric oxide (NO) production and their effects on cytokine production and lymphoproliferative responses to parasite Ag and to Con A by spleen cells (SC) from T.-cruzi-infected mice. Large amounts of PGE2, TNF-alpha, and NO were produced during infection. TNF-alpha stimulated PG and NO synthesis, while both mediators inhibited TNF-alpha synthesis. Blocking PG also reduced NO synthesis indicating that PG stimulate NO production. Treatment with indomethacin or NMLA stimulated lymphoproliferation on days 6 and 22 of infection; on day 14, when suppression of proliferation and NO production was maximal, combined inhibition of NO and PG production restored parasite Ag specific and Con A proliferative responses. Blocking PG or NO production increased IL-2, IFN-gamma, and TNF-alpha, but not IL-12 production by SC; IL-10 levels were not reduced. Indomethacin-treated infected mice had higher mortality compared to untreated infected animals. The data indicate that PG, together with NO and TNF-alpha, participate in a complex circuit that controls lymphoproliferative and cytokine responses in T. cruzi infection.

Prostaglandin and nitric oxide regulate TNF-alpha production during Trypanosoma cruzi infection.

The mechanisms that control TNF-alpha production by macrophages during Trypanosoma cruzi infection are still unknown. Destruction of intracellular forms by cytokine activated macrophages is considered to be a major mechanism of parasite elimination. Although in vitro TNF-alpha contributes to enhanced parasite destruction by macrophages, previous work in vivo has shown that as the parasite burden increases, serum TNF-alpha levels decline. In this report we show that TNF-alpha production by peritoneal adherent cells is elevated at the initial phase of T. cruzi infection. As infection progresses TNF-alpha production decreases. The observed reduction is partly due to inhibition, largely exerted by endogenous PG and secondarily by NO. Inhibition of their synthesis partially restored the ability to produce high levels of TNF-alpha to macrophages upon stimulation by LPS. Neither endogenous IL-10 nor TGF-beta seem to be involved in the negative regulation of TNF-alpha production.

Saponin adjuvant primes for a dominant interleukin-10 production to ovalbumin and to Trypanosoma cruzi antigen.

The adjuvant activity of saponin for T-cell responses was evaluated and compared with that of complete Freund's adjuvant (CFA) in two antigen systems: a lysate of the protozoa Trypanosoma cruzi and ovalbumin (OA). Strong delayed-type hypersensitivity and T-cell proliferate responses, comparable with those stimulated by CFA, were observed for both antigens following immunization with saponin as adjuvant. Upon in vitro secondary antigen stimulation, high interleukin-10 (IL-10) and low interferon-gamma (IFN-gamma) levels were observed in lymph node (LN) cell cultures from saponin-immunized mice in contrast with the high IFN-gamma and decreased IL-10 production by LN cells from CFA-immunized mice. Production of IL-10 and IFN-gamma in these conditions was CD4-activation dependent. Concanavalin A (Con A)-stimulated interleukin-4 (IL-4) production was higher in saponin-immunized mice than in CFA-immunized mice. IL-10 produced by LN cells from saponin-immunized mice suppressed IFN-gamma production and Con A-induced proliferation. Taken together, these data are consistent with in vivo stimulation of both T-helper (Th)1 and Th2-type cells by immunization with saponin; in vitro a Th2-type cytokine response with high IL-10 production predominates, indicating preferential priming towards a Th2-type response. Immunization with CFA induced a Th1-type cytokine response. To our knowledge this is the first report in which an adjuvant is shown to prime for a dominant IL-10 production.