Decreased memory T-cell response and function in human immunodeficiency virus-infected patients with tegumentary leishmaniasis

The effects of human immunodeficiency virus (HIV) on the immune response in patients with cutaneous leishmaniasis have not yet been fully delineated. This study quantified and evaluated the function of memory T-cell subsets in response to soluble Leishmania antigens (SLA) from patients coinfected with HIV and Leishmania with tegumentary leishmaniasis (TL). Eight TL/HIV coinfected subjects and 10 HIV seronegative subjects with TL were evaluated. The proliferative response of CD4+and CD8+T-cells and naïve, central memory (CM) and effector memory (EM) CD4+T-cells in response to SLA were quantified using flow cytometry. The median cell division indices for CD4+and CD8+T-cells of coinfected patients in response to SLA were significantly lower than those in patients with Leishmania monoinfection (p < 0.05). The proportions of CM and EM CD4+T-cells in response to SLA were similar between the coinfected patients and patients with Leishmania monoinfection. However, the median CM and EM CD4+T-cell counts from coinfected patients were significantly lower (p < 0.05). The reduction in the lymphoproliferative response to Leishmania antigens coincides with the decrease in the absolute numbers of both EM and CM CD4+T-cells in response to Leishmania antigens in patients coinfected with HIV/Leishmania.

Human dendritic cells sequentially matured with CD4+ T cells as a secondary signal favor CTL and long-term T memory cell responses

Dendritic cells (DCs) are professional antigen-presenting cells involved in the control and initiation of immune responses. In vivo, DCs exposed at the periphery to maturation stimuli migrate to lymph nodes, where they receive secondary signals from CD4+ T helper cells. These DCs become able to initiate CD8+ cytotoxic T lymphocyte (CTL) responses. However, in vitro investigations concerning human monocyte-derived DCs have never focused on their functional properties after such sequential maturation. Here, we studied human DC phenotypes and functions according to this sequential exposure to maturation stimuli. As first signals, we used TNF-α/polyI:C mimicking inflammatory and pathogen stimuli and, as second signals, we compared activated CD4+ T helper cells to a combination of CD40-L/ IFN-γ. Our results show that a sequential activation with activated CD4+ T cells dramatically increased the maturation of DCs in terms of their phenotype and cytokine secretion compared to DCs activated with maturation stimuli delivered simultaneously. Furthermore, this sequential maturation led to the induction of CTL with a long-term effector and central memory phenotypes. Thus, sequential delivery of maturation stimuli, which includes CD4+ T cells, should be considered in the future to improve the induction of long-term CTL memory in DC-based immunotherapy.

Imbalance of naive and memory T lymphocytes with sustained high cellular activation during the first year of life from uninfected children born to HIV-1-infected mothers on HAART

The immune consequences of in utero HIV exposure to uninfected children whose mothers were submitted to highly active antiretroviral therapy (HAART) during gestation are not well defined. We evaluated 45 HIV-exposed uninfected (ENI) neonates and 45 healthy unexposed control (CT) neonates. All HIV-infected mothers received HAART during pregnancy, and the viral load at delivery was <50 copies/mL for 56.8 percent. Twenty-three ENI neonates were further evaluated after 12 months and compared to 23 unexposed healthy age-matched infants. Immunophenotyping was performed by flow cytometry in cord and peripheral blood. Cord blood lymphocyte numbers did not differ between groups. However, ENI neonates had a lower percentage of naive T cells than CT neonates (CD4+, 76.6 vs 83.1 percent, P < 0.001; CD8+, 70.9 vs 79.6 percent, P = 0.003) and higher percentages of central memory T cells than CT neonates (CD4+, 13.9 vs 8.7 percent, P < 0.001; CD8+, 8.6 vs 4.8 percent, P = 0.001). CD38 mean fluorescence intensity of T cells was higher in ENI neonates (CD4+, 62.2 vs 52.1, P = 0.007; CD8+, 47.7 vs 35.3, P < 0.001). At 12 months, ENI infants still had higher mean fluorescence intensity of CD38 on T cells (CD4+, 34.2 vs 23.3, P < 0.001; CD8+, 26.8 vs 19.4, P = 0.035). Despite effective maternal virologic control at delivery, HIV-exposed uninfected children were born with lower levels of naive T cells. Immune activation was present at birth and remained until at least 12 months of age, suggesting that in utero exposure to HIV causes subtle immune abnormalities.

Anti-tumor immunostimulatory effect of heat-killed tumor cells

As a part of our ongoing search for a safe and efficient anti-tumor vaccine, we attempted to determine whether the molecular nature of certain tumor antigens would influence immune responses against tumor cells. As compared with freeze-thawed or formaldehyde-fixed tumor antigens, heat-denatured tumor antigens elicited profound anti-tumor immune responses and greatly inhibited the growth of live tumor cells. The heat-denatured tumor antigens induced a substantial increase in the anti-tumor CTL response in the absence of any adjuvant material. This response appears to be initiated by strong activation of the antigen-presenting cells, which may recognize heat-denatured protein antigens. Upon recognition of the heat-denatured tumor antigens, macrophages and dendritic cells were found to acutely upregulate the expression of co-stimulatory molecules such as B7.2, as well as the secretion of inflammatory cytokines such as IL-12 and TNF-alpha. The results of this study indicate that heat-denatured tumor extracts might elicit protective anti-tumor adaptive immune responses and also raise the possibility that a safe and efficient adjuvant-free tumor vaccine might be developed in conjunction with a dendritic cell-based tumor vaccine.

Características morfológicas de huella vacunal del BCG en estudiantes de medicina / Characterization of the vaccination print with the BCG, administered at birth in students of Medicine

Con el objetivo de conocer la caracterización cuali-cuantitativa de la huella de la vacunación con el BCG administrada al nacimiento, como indicador de potencialidades inmunológicas de forma temporal o permanente, hemos realizado un trabajo en estudiantes de Medicina, de edades entre 18 y 20 años, Se identificó presencia o no de huella y se midieron los diámetros transversales y longitudinales de las lesiones residuales, y se informó el promedio de ambas lecturas. A un subgrupo, se le realizó cuantificación de anticuerpos anti HBs mediante método inmunoenzimático, después de dosis de refuerzo de 20 μgvacuna de hepatitis B. En 103 de 123 (83,7(por ciento) de los estudiantes que habían recibido el BCG, se logró identificar huella de la vacuna, con un diámetro promedio de7,74mm, DS de 3,85 y CV de 49,7(por ciento) Los factores inmunológicos que justifican la huella de la vacuna aplicada en condiciones standard y de buenas prácticas, tienen una base genética que es totalmente individual, que demuestra la gran desviación standard observada. En el grupo al que se cuantificó, anti HBs, todos tenían respuesta al BCG, y tuvieron también, una magnífica respuesta de memoria inmunológica al HBsAg (987±240 UI/L promedio). Nos proponemos, como parte de un proyecto de investigación de nuestro Centro, realizar estudios prospectivos a niños de diferentes edades; y donde no aparezca huella del BCG, estudiar respuesta inmune para otras vacunas del PAI

Linking immunity and hematopoiesis by bone marrow T cell activity

Two different levels of control for bone marrow hematopoiesis are believed to exist. On the one hand, normal blood cell distribution is believed to be maintained in healthy subjects by an "innate" hematopoietic activity, i.e., a basal intrinsic bone marrow activity. On the other hand, an "adaptive" hematopoietic state develops in response to stress-induced stimulation. This adaptive hematopoiesis targets specific lineage amplification depending on the nature of the stimuli. Unexpectedly, recent data have shown that what we call "normal hematopoiesis" is a stress-induced state maintained by activated bone marrow CD4+ T cells. This T cell population includes a large number of recently stimulated cells in normal mice whose priming requires the presence of the cognate antigens. In the absence of CD4+ T cells or their cognate antigens, hematopoiesis is maintained at low levels. In this review, we summarize current knowledge on T cell biology, which could explain how CD4+ T cells can help hematopoiesis, how they are primed in mice that were not intentionally immunized, and what maintains them activated in the bone marrow.

High CD99 expression in memory T and B cells in reactive lymph nodes

We investigated the expression of CD99 in 35 hyperplastic perigastric lymph nodes, which were resected for gastric carcinoma or chronic peptic ulcer. Essentially, all lymphocytes in lymph nodes expressed CD99, but there were two populations with respect to the intensity of CD99 expression--CD99high and CD99low cells. We showed CD99high cells were distributed in paracortical and medullary cords by immunohistochemical study while germinal center cells were CD99low. Using three-color flow cytometric analysis with CD3, CD4, CD8, CD19, CD23, CD45RA, CD45RO, CD69, CD138, IgM, IgD, and IgG, most of CD99high cells were shown to be activated/memory T cells. CD4+CD45RO+ T cells were the subset revealing the highest intensity of CD99 expression while CD4+CD45RA+ T cells were CD99low. Among B cells, IgG+ B cells revealed a higher level of CD99 molecules than IgM+ B cells. These results suggest that CD99 is one of activation-related molecules which are upregulated in recently activated lymphocytes.

T cell-related memory

Immunological memory is embodied in the rapid and enhanced immune responsiveness to antigens that have been previously encountered. In this work we have analyzed the development of humoral immunological memory to a conventional antigen (TNP-BSA) and a superantigen (staphylococcal enterotoxin B (SEB) in T cell-reconstituted athymic or euthymic mice. It was demonstrated that T cell reconstituded athymic mice, which lack recent thymic emigrants, mount a primary response to a T cell dependent antigen, but do not develop memory or the capacity to produce specific anti-TNP IgG1 antibodies during the secondary immune response. On the other hand, if thymocytes were continously provided during the secondary response a typical memory response was achieved, with the presence of high levels of specific IgG1. In addition, we have shown that immunization of mice with staphylococcal enterotoxin B (SEB) resulted in a detectable anti-SEB antibody response, which was further increased upon boosting. The typical secondary response do SEB was mainly composed of IgG1, thus suggesting the involvement of interleukin-4 (IL-4)-producing T cells. These results led us to propose that the development of humoral immunological memory can not be solely explained by the long lifespan of primed T lymphocytes, and a novel dynamic and systemic hypothesis is given to explain memory development.

Mecanismos inmunológicos en las enfermedades infecciosas / Immunologycal mecanisms of infectious diseases

Los mecanismos de inmunidad contra las infecciones bacterianas, parasitarias y virales son extremadamente complejos y tienen como principal función la eliminación de los microorganismos patógenos. Los sistemas de defensa no específicos contra las bacterias, son proporcionados por los granulocitos, que ingieren y matan a la mayoría de los patógenos. Sin embargo, se necesita de la inmunidad específica contra bacterias encapsuladas o intracelulares y contra parásitos y virus para eliminar a éstos, lo cual requiere del desarrollo de anticuerpos a través de la inmunidad humoral y de la inmunidad celular que puede desencadenar la actividad microbicida de los macrófagos. En muchas infecciones humanas, todos los mecanismos inmunológicos (anticuerpos, complemento, linfocitos, granulocitos y macrófagos) son esenciales para desarrollar una inmunidad protectora contra muchos microorganismos patógenos