Plasmodium falciparum alters the trophoblastic barrier and stroma villi organization of human placental villi explants.

BACKGROUND: The sequestration of Plasmodium falciparum infected erythrocytes in the placenta, and the resulting inflammatory response affects maternal and child health. Despite existing information, little is known about the direct impact of P. falciparum on the placental barrier formed by trophoblast and villous stroma. This study aimed to assess placental tissue damage caused by P. falciparum in human placental explants (HPEs). METHODS: HPEs from chorionic villi obtained of human term placentas (n = 9) from normal pregnancies were exposed to P. falciparum-infected erythrocytes (IE) for 24 h. HPEs were embedded in paraffin blocks and used to study tissue damage through histopathological and histochemical analysis and apoptosis using TUNEL staining. Culture supernatants were collected to measure cytokine and angiogenic factors and to determine LDH activity as a marker of cytotoxicity. A subset of archived human term placenta paraffin-embedded blocks from pregnant women with malaria were used to confirm ex vivo findings. RESULTS: Plasmodium falciparum-IE significantly damages the trophoblast layer and the villous stroma of the chorionic villi. The increased LDH activity and pathological findings such as syncytial knots, fibrin deposits, infarction, trophoblast detachment, and collagen disorganization supported these findings. The specific damage to the trophoblast and the thickening of the subjacent basal lamina were more pronounced in the ex vivo infection. In contrast, apoptosis was higher in the in vivo infection. This disparity could be attributed to the duration of exposure to the infection, which significantly varied between individuals naturally exposed over time and the 24-h exposure in the ex vivo HPE model. CONCLUSION: Exposure to P. falciparum-IE induces a detachment of the syncytiotrophoblast, disorganization of the stroma villi, and an increase in apoptosis, alterations that may be associated with adverse results such as intrauterine growth restriction and low birth weight.

Assessment of the Integrity and Function of Human Term Placental Explants in Short-Term Culture.

Human placental explants (HPEs) culture has generated significant interest as a valuable in vitro model for studying tissue functions in response to adverse conditions, such as fluctuations in oxygen levels, nutrient availability, exposure to pathogenic microorganisms, and toxic compounds. HPEs offers the advantage of replicating the intricate microenvironment and cell-to-cell communication involved in this critical and transient organ. Although HPEs culture conditions have been extensively discussed, a protocol for assessing the viability and function of HPEs during short-term culture has not been previously outlined. In this study, we have developed a short-term HPEs culture protocol, specifically up to 72 h, and have employed quantitative, semi-quantitative, and qualitative analyses to evaluate tissue viability and function over time. Under our standardized conditions, placental villi explants began to regain their structural properties (the integrity of the trophoblast and villous stroma) and the functionality of the HPEs (production of angiogenic, endocrine, and immunological factors) starting from 48 h of culture. This restoration ensures a suitable environment for several applications. The data presented here can be highly valuable for laboratories aiming to implement an HPEs model, whether in the process of standardization or seeking to enhance and optimize working conditions and timing with placental tissue.

Molecular mechanisms by which the HIV-1 latent reservoir is established and therapeutic strategies for its elimination.

The human immunodeficiency virus type 1 (HIV-1) reservoir, composed of cells harboring the latent, integrated virus, is not eliminated by antiretroviral therapy. It therefore represents a significant barrier to curing the infection. The biology of HIV-1 reservoirs, the mechanisms of their persistence, and effective strategies for their eradication are not entirely understood. Here, we review the molecular mechanisms by which HIV-1 reservoirs develop, the cells and compartments where the latent virus resides, and advancements in curative therapeutic strategies. We first introduce statistics and relevant data on HIV-1 infection, aspects of pathogenesis, the role of antiretroviral therapy, and the general features of the latent HIV reservoir. Then, the article is built on three main pillars: The molecular mechanisms related to latency, the different strategies for targeting the reservoir to obtain a cure, and the current progress in immunotherapy to counteract said reservoirs.

Submicroscopic placental malaria: histopathology and expression of physiological process mediators. / Malaria placentaria submicroscópica: histopatología y expresión de mediadores de procesos fisiológicos.

OBJETIVES: To relate histopathological events of placental malaria (PM), immune cell behavior and gene expression associated with cytokines, hypoxia, inflammation and angiogenesis in placentas with or without plasmodial infection. MATERIALS AND METHODS: Transversal design, with three independent groups. Women were recruited, and their placentas were collected in 2009-2016, in the hospitals of Puerto Libertador and Tierralta, northwestern Colombia. The sample size was defined by convenience. The malaria diagnosis was based on real-time quantitative PCR. RESULTS: We studied 20 cases of PM by P. vivax (PM-V), 20 cases of PM by P. falciparum (PM-F) and 19 without PM; 95% of the cases of PM are submicroscopic placental plasmodial infection (SPPI). The three groups differ in frequency and number of histopathological events. Physiological process mediators showed significant difference between groups, except IL-2, VEGF, VEGFR-1 and C5a. CONCLUSIONS: Infected placentas are clearly different from uninfected ones. P. vivax behaves as pathogenic as P. falciparum. The approximation to the integral approach of the problem of PM is underlined. Submicroscopic placental plasmodial infection causes tissue and physiological mediator alterations as does microscopic infection, although probably to a lesser degree.

OBJETIVOS: Relacionar entre sí los eventos histopatológicos de malaria placentaria (MP), el comportamiento de células inmunitarias y la expresión de genes asociados a citoquinas, hipoxia, inflamación y angiogénesis en placentas con o sin infección plasmodial. MATERIALES Y MÉTODOS: Diseño transversal, con tres grupos independientes. Las mujeres y sus placentas fueron captadas en 2009-2016, en los hospitales de Puerto Libertador y Tierralta, noroccidente de Colombia. El tamaño muestral se definió por conveniencia. El diagnóstico malárico se basó en PCR cuantitativa en tiempo real. RESULTADOS: Se estudiaron 20 casos con MP por P. vivax (MP-V), 20 casos de MP por P. falciparum (MP-F) y 19 sin MP; 95% de los casos de MP son infección plasmodial placentaria submicroscópica (IPPS). Los tres grupos difieren en frecuencia y cantidad de eventos histopatológicos. Los mediadores de procesos fisiológicos presentaron diferencia significativa entre grupos, excepto IL-2, VEGF, VEGFR-1 y C5a. CONCLUSIONES: Las placentas con infección difieren claramente de las no infectadas. P. vivax se comporta tan patógeno como P. falciparum. Se resalta la aproximación al abordaje integral del problema de MP. La infección plasmodial placentaria submicroscópica causa alteraciones tisulares y en mediadores fisiológicos como lo hace la infección microscópica, aunque probablemente en menor grado.

Malaria placentaria submicroscópica: histopatología y expresión de mediadores de procesos fisiológicos / Submicroscopic placental malaria: histopathology and expression of physiological process mediators

RESUMEN Objetivos: Relacionar entre sí los eventos histopatológicos de malaria placentaria (MP), el comportamiento de células inmunitarias y la expresión de genes asociados a citoquinas, hipoxia, inflamación y angiogénesis en placentas con o sin infección plasmodial. Materiales y métodos: Diseño transversal, con tres grupos independientes. Las mujeres y sus placentas fueron captadas en 2009-2016, en los hospitales de Puerto Libertador y Tierralta, noroccidente de Colombia. El tamaño muestral se definió por conveniencia. El diagnóstico malárico se basó en PCR cuantitativa en tiempo real. Resultados: Se estudiaron 20 casos con MP por P. vivax (MP-V), 20 casos de MP por P. falciparum (MP-F) y 19 sin MP; 95% de los casos de MP son infección plasmodial placentaria submicroscópica (IPPS). Los tres grupos difieren en frecuencia y cantidad de eventos histopatológicos. Los mediadores de procesos fisiológicos presentaron diferencia significativa entre grupos, excepto IL-2, VEGF, VEGFR-1 y C5a. Conclusiones: Las placentas con infección difieren claramente de las no infectadas. P. vivax se comporta tan patógeno como P. falciparum. Se resalta la aproximación al abordaje integral del problema de MP. La infección plasmodial placentaria submicroscópica causa alteraciones tisulares y en mediadores fisiológicos como lo hace la infección microscópica, aunque probablemente en menor grado.

ABSTRACT Objetives: To relate histopathological events of placental malaria (PM), immune cell behavior and gene expression associated with cytokines, hypoxia, inflammation and angiogenesis in placentas with or without plasmodial infection. Materials and methods: Transversal design, with three independent groups. Women were recruited, and their placentas were collected in 2009-2016, in the hospitals of Puerto Libertador and Tierralta, northwestern Colombia. The sample size was defined by convenience. The malaria diagnosis was based on real-time quantitative PCR. Results: We studied 20 cases of PM by P. vivax (PM-V), 20 cases of PM by P. falciparum (PM-F) and 19 without PM; 95% of the cases of PM are submicroscopic placental plasmodial infection (SPPI). The three groups differ in frequency and number of histopathological events. Physiological process mediators showed significant difference between groups, except IL-2, VEGF, VEGFR-1 and C5a. Conclusions: Infected placentas are clearly different from uninfected ones. P. vivax behaves as pathogenic as P. falciparum. The approximation to the integral approach of the problem of PM is underlined. Submicroscopic placental plasmodial infection causes tissue and physiological mediator alterations as does microscopic infection, although probably to a lesser degree.