Metacyclogenesis of Trypanosoma cruzi in B. ferroae (Reduviidae: Triatominae) and feces infectivity under laboratory conditions / Metaciclogénesis de Trypanosoma cruzi en Belminus ferroae (Reduviidae: Triatominae) y capacidad infectiva de las heces en condiciones de laboratorio.

Introduction: Belminus ferroae is a triatominae with entomophagous behavior. However, it may occasionally feed on vertebrates. Currently, there is no evidence of natural infection with Trypanosoma cruzi or the occurrence of metacyclogenesis in this species. Objective: To test T. cruzi metacyclogenesis in B. ferroae and the infectivity of their feces or intestinal contents in rodents under laboratory conditions. Materials and methods: Twenty nymphs of B. ferroae were infected with an autochthonous strain of T. cruzi (M/HOM/VE/09/P6). Fecal and urine samples were collected from spontaneous droppings or by compressing the bugs' abdomens and, eventually, by removing their gut contents, and then examined at 10, 20, 30, 40, 50, and 60 days. We quantified T. cruzi parasitic load, as well as the evolutionary forms in feces, urine, and intestinal contents by Giemsa staining. Similarly, we evaluated the infectivity of T. cruzi metacyclic trypomastigotes in albino mice. Results: The parasitological analysis showed three insects (15%) infected with T. cruzi at 30 (n=1), 40 (n=1), and 50 (n=1) days post-infection. We observed parasitic loads of up to 1.62 x 105 trypanosomes/mm3 and metacyclogenesis percentages between 3.5% and 6.78%. Conclusions: This is the first time that T. cruzi metacyclogenesis is reported in a species of the genus Belminus under laboratory conditions and the infectivity of Belminus' feces is demonstrated on a vertebrate host.

Introducción. Belminus ferroae es un triatomino de comportamiento entomófago, sin embargo, puede alimentarse de vertebrados ocasionalmente. No se ha demostrado infección natural por Trypanosoma cruzi en esta especie, como tampoco la metaciclogénesis del parásito. Objetivo. Examinar la metaciclogénesis de T. cruzi en B. ferroae y la capacidad infectiva de las heces o sus contenidos intestinales en roedores. Materiales y métodos. Se analizaron las heces y la orina expulsadas espontáneamente por los insectos o mediante compresión abdominal o extracción del contenido intestinal a los 10, 20, 30, 40, 50 y 60 días. Se cuantificó la carga parasitaria de T. cruzi y sus formas evolutivas se identificaron con tinción de Giemsa. Asimismo, se evaluó en ratones albinos la apacidad infectiva de los tripomastigotes metacíclicos de T. cruzi obtenidos de las heces o contenidos intestinales de los especímenes infectados. Resultados. El análisis parasitológico reveló tres (15 %) insectos infectados con T. cruzi a los 30 (n=1), 40 (n=1) y 50 (n=1) días después de la infección con cargas parasitarias de hasta 1,62 x 105 tripanosomas/mm3 y porcentajes de metaciclogénesis entre el 3,5 y el 6,78 %. Conclusiones. Se demuestra por primera vez, en una especie del género Belminus, la metaciclogenésis de T. cruzi en condiciones de laboratorio y la capacidad infectiva de las heces para un huésped vertebrado.

Metaciclogénesis de Trypanosoma cruzi en Belminus ferroae (Reduviidae: Triatominae) y capacidad infectiva de las heces en condiciones de laboratorio / Metacyclogenesis of Trypanosoma cruzi in B. ferroae (Reduviidae: Triatominae) and feces infectivity under laboratory conditions

Resumen | Introducción. Belminus ferroae es un triatomino de comportamiento entomófago, sin embargo, puede alimentarse de vertebrados ocasionalmente. No se ha demostrado infección natural por Trypanosoma cruzi en esta especie, como tampoco la metaciclogénesis del parásito. Objetivo. Examinar la metaciclogénesis de T. cruzi en B. ferroae y la capacidad infectiva de las heces o sus contenidos intestinales en roedores. Materiales y métodos. Se analizaron las heces y la orina expulsadas espontáneamente por los insectos o mediante compresión abdominal o extracción del contenido intestinal a los 10, 20, 30, 40, 50 y 60 días. Se cuantificó la carga parasitaria de T. cruzi y sus formas evolutivas se identificaron con tinción de Giemsa. Asimismo, se evaluó en ratones albinos la capacidad infectiva de los tripomastigotes metacíclicos de T. cruzi obtenidos de las heces o contenidos intestinales de los especímenes infectados. Resultados. El análisis parasitológico reveló tres (15 %) insectos infectados con T.cruzi a los 30 (n=1), 40 (n=1) y 50 (n=1) días después de la infección con cargas parasitarias de hasta 1,62 x 105 tripanosomas/mm3 y porcentajes de metaciclogénesis entre el 3,5 y el 6,78 %. Conclusiones. Se demuestra por primera vez, en una especie del género Belminus, la metaciclogenésis de T. cruzi en condiciones de laboratorio y la capacidad infectiva de las heces para un huésped vertebrado.

Abstract | Introduction: Belminus ferroae is a triatominae with entomophagous behavior. However, it may occasionally feed on vertebrates. Currently, there is no evidence of natural infection with Trypanosoma cruzi or the occurrence of metacyclogenesis in this species. Objective: To test T. cruzi metacyclogenesis in B. ferroae and the infectivity of their feces or intestinal contents in rodents under laboratory conditions. Materials and methods: Twenty nymphs of B. ferroae were infected with an autochthonous strain of T. cruzi (M/HOM/VE/09/P6). Fecal and urine samples were collected from spontaneous droppings or by compressing the bugs' abdomens and, eventually, by removing their gut contents, and then examined at 10, 20, 30, 40, 50, and 60 days. We quantified T. cruzi parasitic load, as well as the evolutionary forms in feces, urine, and intestinal contents by Giemsa staining. Similarly, we evaluated the infectivity of T. cruzi metacyclic trypomastigotes in albino mice. Results: The parasitological analysis showed three insects (15%) infected with T. cruzi at 30 (n=1), 40 (n=1), and 50 (n=1) days post-infection. We observed parasitic loads of up to 1.62 x 105 trypanosomes/mm3 and metacyclogenesis percentages between 3.5% and 6.78%. Conclusions: This is the first time that T. cruzi metacyclogenesis is reported in a species of the genus Belminus under laboratory conditions and the infectivity of Belminus' feces is demonstrated on a vertebrate host.

Schwann cells sense and control acetylcholine spillover at the neuromuscular junction by α7 nicotinic receptors and butyrylcholinesterase.

Terminal Schwann cells (TSCs) are key components of the mammalian neuromuscular junction (NMJ). How the TSCs sense the synaptic activity in physiological conditions remains unclear. We have taken advantage of the distinct localization of acetylcholinesterase (AChE) and butyrylcholinesterase (BChE) at the NMJ to bring out the function of different ACh receptors (AChRs). AChE is clustered by the collagen Q in the synaptic cleft and prevents the repetitive activation of muscle nicotinic AChRs. We found that BChE is anchored at the TSC by a proline-rich membrane anchor, the small transmembrane protein anchor of brain AChE. When BChE was specifically inhibited, ACh release was significant depressed through the activation of α7 nAChRs localized on the TSC and activated by the spillover of ACh. When both AChE and BChE were inhibited, the spillover increased and induced a dramatic reduction of ACh release that compromised the muscle twitch triggered by the nerve stimulation. α7 nAChRs at the TSC may act as a sensor for spillover of ACh adjusted by BChE and may represent an extrasynaptic sensor for homeostasis at the NMJ. In myasthenic rats, selective inhibition of AChE is more effective in rescuing muscle function than the simultaneous inhibition of AChE and BChE because the concomitant inhibition of BChE counteracts the positive action of AChE inhibition. These results show that inhibition of BChE should be avoided during the treatment of myasthenia and the pharmacological reversal of residual curarization after anesthesia.

Proliferación de trypanosoma cruzi en la membrana peritoneal y líquido ascítico de ratones con infección aguda / Proliferation of trypanosoma cruzi in the peritoneal membrane and ascitic liquid of mice with acute infection

En este estudio fue analizada la parasitemia y el parasitismo en el líquido ascítico (LA), membrana peritoneal (MP) y en otros tejidos de 40 ratones machos NMRI durante la infección aguda. Los ratones (20 ratones por grupo) fueron inoculados por vía intradérmica con tripomastigotos metacíclicos linaje T.cr I de las cepas P6 y P11 obtenidos de Rhodnius prolixus. Formas delgadas y gruesas de tripomastigotos fueron encontradas en la sangre de todos los ratones. En los ratones infectados con la cepa P6 los tripomastigotos aparecieron primero en él LA a los 13 días pi y en la sangre a los 18 días pi, en los ratones infectados con la cepa P11 los parásitos se observaron primero en la sangre a los 15 días pi y en él LA a los 22 días pi. Los ratones desarrollaron emaciación, disnea, hirsutismo, pérdida de la actividad motora de las patas posteriores y hepatoesplenomegalia. Los ratones fueron sacrificados a los 39 días pi. El estudio histológico mostró que T. cruzi prolifera formando nidos de amastigotos y tripomastigotos en la MP. Los parásitos también fueron encontrados en el músculo esquelético y en el corazón de los ratones infectados con la cepa P6. La inmunotinción con PAP reveló antígeno de T. cruzi en las secciones de esófago, estómago, intestino delgado y grueso, bazo, riñón, hígado, próstata y pene de los ratones. Estos resultados confirmaron que las cepas P6 y P11 desarrollaron anormalidades histopatológicas en el tracto gastrointestinal, renal y órgano reproductivo. La localización intra-peritoneal de los parásitos y la acumulación de fluido peritoneal, reveló ascitis y peritonitis causada por el incremento de líquido en la cavidad peritoneal y destrucción del tejido peritoneal de los ratones. El presente estudio reporta por primera vez la proliferación de tripomastigotos en la cavidad peritoneal cinco días antes de encontrarse en la sangre periférica para la cepa P6 causando daño intraperitoneal y muerte del modelo murino utilizado.

In this study we analyzed the parasitemia and parasitism in the ascitic fluid (AF), peritoneal membrane (PM) and in other tissues of 40 NMRI male mice during acute infection. Mice (20 mice per group) were inoculated by intradermal route with metacyclic trypomastigotes T.cI lineage of P6 or P11 strains obtained from Rhodnius prolixus. Slender and stout forms were observed in the blood of all mice. In infected mice with P6 strain the trypomastigotes were observed first in the AF at day 13 pi and in blood at day 18 pi. Meanwhile in infected mice with P11 strain trypomastigotes were observed first in the blood at day 15 pi and in the AF at day 22 pi. Infected mice showed emaciation, dyspnea, bristled hair, loss of motor activities in the rear limbs and hepatosplenomegaly. Mice were sacrificed at day 39 pi. Histological finding indicated that T. cruzi proliferates forming amastigotes and trypomastigotes nests in the PM. Parasites were also observed in skeletal muscle of the mice and in the heart of infected mice with P6 strain. Imunostaining with PAP revealed T. cruzi antigen in esophagus, stomach, thin and thick intestine, spleen, and kidney, liver, prostate and penis. The results show that P6 and P11 colonized and produced abnormalities in the gastrointestinal tract, renal and reproductive organs. Intra-peritoneal localization of parasites and accumulation of peritoneal fluid, revealed ascites and peritonitis caused by increase of fluid in the peritoneal cavity and destruction of the membrane peritoneal of the mice. This study reports for the first time the proliferation of trypomastigotes in the peritoneal cavity five days earlier than in peripheral blood for the P6 strain causing intra-peritoneal damage and death in the murine model used.

Botulinum neurotoxin type A is internalized and translocated from small synaptic vesicles at the neuromuscular junction.

Botulinum neurotoxin type A (BoNT/A) is the most frequent cause of human botulism and, at the same time, is largely used in human therapy. Some evidence indicates that it enters inside nerve terminals via endocytosis of synaptic vesicles, though this has not been directly proven. The metalloprotease L chain of the neurotoxin then reaches the cytosol in a process driven by low pH, but the acidic compartment wherefrom it translocates has not been identified. Using immunoelectron microscope, we show that BoNT/A does indeed enter inside synaptic vesicles and that each vesicle contains either one or two toxin molecules. This finding indicates that it is the BoNT/A protein receptor synaptic vesicle protein 2, and not its polysialoganglioside receptor that determines the number of toxin molecules taken up by a single vesicle. In addition, by rapid quenching the vesicle trans-membrane pH gradient, we show that the neurotoxin translocation into the cytosol is a fast process. Taken together, these results strongly indicate that translocation of BoNT/A takes place from synaptic vesicles, and not from endosomal compartments, and that the translocation machinery is operated by no more than two neurotoxin molecules.

Presencia de epimastigotes de Trypanosoma cruzi en el plasma seminal de ratones con infección aguda / Trypanosoma cruzi epimastigotes in seminal plasma in acute infected mice

Se reporta la presencia de formas evolutivas de Trypanosoma cruzi en el plasma seminal (PS) de ratones NMRI, inoculados por vía subcutánea con 2x104 tripomastigotes metacíclicos cepa P6 obtenidos de Rhodnius prolixus. Al separar las muestras de sangre a los 15 días pos-infección, un ratón eyaculó espontáneamente y el examen directo del PS reveló la presencia de formas epimastigotes de T. cruzi en activo movimiento mezclados con los espermatozoides. Las preparaciones del PS coloreadas con Giemsa, mostraron formas epimastigotes libres y en división, tripomastigotes y amastigotes extracelulares y dentro de células fagocíticas. Los resultados de este estudio revelaron los diferentes estadios de T. cruzi en el PS de ratón, con morfogénesis similar a como ocurre en el insecto vector. El parasitismo encontrado en el PS del ratón con infección aguda, aporta importante información epidemiológica sobre la vía de transmisión sexual de T. cruzi, principalmente entre la población de reservorios silvestres que se encuentran en áreas endémicas y no endémicas para la enfermedad de Chagas.

We report the presence of evolving forms of Trypanosoma cruzi in the seminal plasma (SP) of NMRI mice subcutaneously inoculated with 2x104 metacyclic trypomastigotes obtained from P6 strain Rhodnius prolixus. When taking blood samples at 15 days post-infection, the mouse spontaneously ejaculated and the direct SP exam revealed the presence of active epimastigotes of T. cruzi mixed with spermatozoids. SP preparations stained with Giemsa showed free and dividing epimastigotes, extracellular trypomastigotes and amastigotes, as well as, within phagocytic cells. The results showed the presence of T. cruzi at the different stages of its life cycle in the mouse PS, observing similar morphogenesis in the PS to the one known in the insect vector. The parasitism found in the SP of this mouse with acute infection, provides important epidemiological information about the T. cruzi pathway of sexual transmission, mainly among the population of wild reservoirs found in endemic and non-endemic areas for Chagas`disease.

[Trypanosoma cruzi infection in pregnant mice induces a cellular immune response with citokines production in their fetuses]. / La infección por Trypanosoma cruzi en ratones gestantes induce una respuesta inmune celular con producción de citocinas en sus fetos.

The objective of this study was to detect the cytokines IFN-gamma, IL-4 and IL-10 expressed by CD4+ T cells in tissues of fetal mice with acute chagasic infection. For this, we examined the fetuses of NMRI mice whose mothers were infected with 22x10(3) metacyclic trypomastigotes of the M/HOM/BRA/53/Y strain of T. cruzi and made pregnant during the acute phase of infection. For the detection and localization of inflammatory infiltrates, nest parasites, antigens of T. cruzi a nd cytokines w eused hematoxylin-eosin techniques, peroxidase-anti-peroxidase and immunofluorescence. The immunohistochemical study revealed the presence of inflammatory infiltrates and antigens with amastigote nests in fetal skeletal muscle. CD4 + T cells producing IFN-gamma, as well as deposits of IFN-gamma and IL-10, were detected in sections of placenta, heart and skeletal muscle of fetuses of mice infected, while CD4+/IL-10+ was found only in skeletal muscle; in addition, deposits of IL-4 were detected only in placentas of healthy mice. These results indicate that fetuses are capable of generating their own immune response to antigens transmitted by their mother, which induces the secretion of cytokines and that, acting in synergy with the maternal antibodies, confer them a state of protection against infection; and that the transmission of the parasite depends on factors specific to each mother, which may modify its ability to control such transmission at the placental or systemic levels.

La infección por Trypanosoma cruzi en ratones gestantes induce una respuesta inmune celular con producción de citocinas en sus fetos / Trypanosoma cruzi infection in pregnant mice induces a cellular immune response with citokines production in their fetuses

El objetivo del presente estudio fue detectar las citocinas IFN-g, IL-4 e IL-10 expresadas por células T CD4+ en tejidos de fetos de ratones con infección chagásica aguda. Para ello, se examinaron fetos de ratones NMRI cuyas madres fueron infectadas con 22×10³ tripomastigotes metacíclicos de la cepa M/HOM/BRA/53/Y de T. cruzi y preñadas durante la fase aguda de la infección. Para la detección y localización de infiltrados inflamatorios, nidos de parásitos, antígenos de T. cruzi y citocinas se emplearon las técnicas de hematoxilina-eosina, peroxidasa-anti-peroxidasa e inmunofluorescencia indirecta. Se detectaron infiltrados inflamatorios y antígenos con nidos de amastigotes en el músculo esquelético fetal. Células T CD4+ productoras de IFN-g así como depósitos de IFN-g e IL-10 fueron detectados en las secciones de placenta, corazón y músculo esquelético de fetos de ratones infectadas, mientras que células CD4+/IL-10+ se encontraron sólo en músculo esquelético, adicionalmente se detectaron depósitos de IL-4 sólo en placentas de ratones sanas. Estos resultados indican que el feto es capaz de generar una respuesta inmune propia frente a antígenos transmitidos por su madre, lo cual induce la secreción de citocinas que actuando en sinergia con los anticuerpos maternos le confieren un estado de protección contra la infección, y que la transmisión del parásito depende de factores específicos de cada madre, la cual puede modificar su capacidad de controlar tal transmisión ya sea a nivel placentario o sistémico.

The objective of this study was to detect the cytokines IFN-g, IL-4 and IL-10 expressed by CD4+ T cells in tissues of fetal mice with acute chagasic infection. For this, we examined the fetuses of NMRI mice whose mothers were infected with 22×10³ metacyclic trypomastigotes of the M/HOM/BRA/53/Y strain of T. cruzi and made pregnant during the acute phase of infection. For the detection and localization of inflammatory infiltrates, nest parasites, antigens of T. cruzi and cytokines we used hematoxylin-eosin techniques, peroxidase-anti-peroxidase and immunofluorescence. The immunohistochemical study revealed the presence of inflammatory infiltrates and antigens with amastigote nests in fetal skeletal muscle. CD4 + T cells producing IFN-g, as well as deposits of IFN-g and IL-10, were detected in sections of placenta, heart and skeletal muscle of fetuses of mice infected, while CD4+/IL-10+ was found only in skeletal muscle; in addition, deposits of IL-4 were detected only in placentas of healthy mice. These results indicate that fetuses are capable of generating their own immune response to antigens transmitted by their mother, which induces the secretion of cytokines and that, acting in synergy with the maternal antibodies, confer them a state of protection against infection; and that the transmission of the parasite depends on factors specific to each mother, which may modify its ability to control such transmission at the placental or systemic levels.

Sustained synaptic-vesicle recycling by bulk endocytosis contributes to the maintenance of high-rate neurotransmitter release stimulated by glycerotoxin.

Glycerotoxin (GLTx), a large neurotoxin isolated from the venom of the sea worm Glycera convoluta, promotes a long-lasting increase in spontaneous neurotransmitter release at the peripheral and central synapses by selective activation of Ca(v)2.2 channels. We found that GLTx stimulates the very high frequency, long-lasting (more than 10 hours) spontaneous release of acetylcholine by promoting nerve terminal Ca(2+) oscillations sensitive to the inhibitor omega-conotoxin GVIA at the amphibian neuromuscular junction. Although an estimate of the number of synaptic vesicles undergoing exocytosis largely exceeds the number of vesicles present in the motor nerve terminal, ultrastructural examination of GLTx-treated synapses revealed no significant change in the number of synaptic vesicles. However, we did detect the appearance of large pre-synaptic cisternae suggestive of bulk endocytosis. Using a combination of styryl dyes, photoconversion and horseradish peroxidase (HRP)-labeling electron microscopy, we demonstrate that GLTx upregulates presynaptic-vesicle recycling, which is likely to emanate from the limiting membrane of these large cisternae. Similar synaptic-vesicle recycling through bulk endocytosis also occurs from nerve terminals stimulated by high potassium. Our results suggest that this process might therefore contribute significantly to synaptic recycling under sustained levels of synaptic stimulation.

Non-invasive in vivo imaging of calcium signaling in mice.

Rapid and transient elevations of Ca(2+) within cellular microdomains play a critical role in the regulation of many signal transduction pathways. Described here is a genetic approach for non-invasive detection of localized Ca(2+) concentration ([Ca(2+)]) rises in live animals using bioluminescence imaging (BLI). Transgenic mice conditionally expressing the Ca(2+)-sensitive bioluminescent reporter GFP-aequorin targeted to the mitochondrial matrix were studied in several experimental paradigms. Rapid [Ca(2+)] rises inside the mitochondrial matrix could be readily detected during single-twitch muscle contractions. Whole body patterns of [Ca(2+)] were monitored in freely moving mice and during epileptic seizures. Furthermore, variations in mitochondrial [Ca(2+)] correlated to behavioral components of the sleep/wake cycle were observed during prolonged whole body recordings of newborn mice. This non-invasive imaging technique opens new avenues for the analysis of Ca(2+) signaling whenever whole body information in freely moving animals is desired, in particular during behavioral and developmental studies.

Red-shifted aequorin-based bioluminescent reporters for in vivo imaging of Ca2 signaling.

Real-time visualization of calcium (Ca(2+)) dynamics in the whole animal will enable important advances in understanding the complexities of cellular function. The genetically encoded bioluminescent Ca(2+) reporter green fluorescent protein-aequorin (GA) allows noninvasive detection of intracellular Ca(2+) signaling in freely moving mice. However, the emission spectrum of GA is not optimal for detection of activity from deep tissues in the whole animal. To overcome this limitation, two new reporter genes were constructed by fusing the yellow fluorescent protein (Venus) and the monomeric red fluorescent protein (mRFP1) to aequorin. Transfer of aequorin chemiluminescence energy to Venus (VA) is highly efficient and produces a 58 nm red shift in the peak emission spectrum of aequorin. This substantially improves photon transmission through tissue, such as the skin and thoracic cage. Although the Ca(2+)-induced bioluminescence spectrum of mRFP1-aequorin (RA) is similar to that of aequorin, there is also a small peak above 600 nm corresponding to the peak emission of mRFP1. Small amounts of energy transfer between aequorin and mRFP1 yield an emission spectrum with the highest percentage of total light above 600 nm compared with GA and VA. Accordingly, RA is also detected with higher sensitivity from brain areas. VA and RA will therefore improve optical access to Ca(2+) signaling events in deeper tissues, such as the heart and brain, and offer insight for engineering new hybrid molecules.

Toxoplasma gondii infection lower anxiety as measured in the plus-maze and social interaction tests in rats A behavioral analysis.

It has been suggested that the parasite Toxoplasma gondii reduces the fear of rodents toward their feline predators, which may lead to an augmented rate of predation and multiplication of the parasite through an increased number of life cycles. To investigate whether T. gondii infection induces selective effects on behavior associated with anxiety, Wistar rats were inoculated i.p. with several doses of T. gondii tachyzoites and tested in two animal tests of anxiety. In the third week following inoculation, rats infected with 100 and 1000 tachyzoites increased plus-maze open arm exploration in a dose-related manner. However, no effect was detected in either social interaction levels or motor activity measures. In the seventh week after inoculation, rats infected with 100 and 1000 tachyzoites showed increased open arm exploration and social investigation without change on any motor activity measures. However, rats infected with a higher dose (1500 tachyzoites) showed a drop in locomotion. These data support the hypothesis that T. gondii impairs mechanism of warning as a function of reduced anxiety. The pattern of brain colonization by the parasite and the host immune response suggests that the predominant invasion to limbic areas works as a natural anxiolytic mechanism.

Gastrocnemius skeletal muscle microvasculature and neuromuscular junction alterations in mice with experimental acute chagas infection / Alteraciones en la microvasculatura y unión neuromuscular del músculo esquelético Gastrocnemius de ratones con infección experimental de Chagas agudo

A light and transmission electron microscopy study was performed in skeletal muscles (SM) Gastrocnemius (G) from mice experimentally infected with Trypanosoma cruzi to determine changes on microvessels (MV) and neuromuscular junction (NMJ) of G. In this study 10 male (mus musculus) (20 g) were infected subcutaneally with 1.10(4) bloodstream trypomastigotes M/DID/Ve/02/DSM strain. Five mice were kept as uninfected controls. The parasites induced a complete paralysis of the rear limbs and death while still in the acute Chagas´disease. The histopathology of SM showed inflammatory cell infiltration by mononuclear and polymorphonuclear leukocytes associated with marked parasitism in the muscle fibers of G. Indirect immunofluorescence revealed interstitial IgG deposit as bands regularly spaced along the nerve terminals at 40 days post-infection (pi). At this time T. cruzi antigens and intracellular amastigotes nests were also observed. The marked inflammatory response and morphological changes in the SM were confirmed by transmission electron microscopy. Capillary ultrastructure was seen to be altered, with points of cell cytoplasm discontinuity that appear to represent holes in the microvessel walls. This finding coincided with amastigote nests in myofibers, close contacts between trypomastigotes and endothelial cells and marked thickening of the basement membrane of the muscle vessels. Loss of capillary lumen and a process of ischemia also were observed in the SM of infected mice. The neuromuscular junction showed degeneration of intramuscular nerve fibers, reduction in the axon caliber, swollen mitochondrial, increase in the actin filaments and microtubules in the axoplasm, and swelling of the Schwann cells. Increase in the nerve terminal perimeter and most of the synaptic vesicles were localized near the presynaptic active zones and scarces in the axoplasm. At this stage of infection the changes findings in MV and NMJ of G infected with ...

Un estudio con microscopía de luz y electrónica de transmisión fue realizado en muestras del músculo esquelético (ME) Gastrocnemius (G) de ratones experimentalmente infectados con Trypanosoma cruzi, a fin de determinar las alteraciones en la microvasculatura y unión neuromuscular (UNM) de G durante la infección chagásica aguda. Un grupo de 10 ratones machos (mus musculus) NMRI (20 g), fueron infectados subcutáneamente con 1,10(4) tripomastigotes sanguícolas de la cepa M/DID/Ve/02/DSM. Cinco ratones NMRI no infectados fueron usados como control. Estos parásitos produjeron completa parálisis de las patas posteriores y muerte de los ratones durante la infección aguda. La histopatología del ME mostró infiltración de células mononucleares y leucocitos polimorfonucleares asociados con marcado parasitismo en la fibra muscular de G. La inmunofluorescencia indirecta reveló IgG a manera de bandas sobre el nervio terminal a los 40 días post-infección (pi). En este tiempo, antígeno y grupos de amastigotes de T. cruzi fueron observados en los cortes del ME. La marcada respuesta inflamatoria y las alteraciones morfológicas en el tejido muscular fueron verificadas por microscopía electrónica de transmisión. La ultraestructura de los capilares estuvo relacionada con puntos de discontinuidad en la microvasculatura. Este encuentro coincidió con la presencia de grupos de amastigotes dentro de las miofibrillas, estrecho contacto entre los tripomastigotes y las células endoteliales y marcado adelgazamiento de la membrana basal de los vasos sanguíneos. La pérdida del lumen capilar y un proceso de ischemia también fue observado en el G de los ratones infectados. La unión neuromuscular mostró degeneración de la fibra nerviosa intramuscular, reducción en el calibre del axón del nervio motor determinada por una retracción de la vaina de mielina, inflamación mitocondrial, aumento en los filamentos de actina y microtúbulos en el axoplasma e inflamación de las células ...

Effects of Acute Chagas'Disease on Mice Central Nervous System

This study has been done to evaluate the central nervous system (CNS) of mice infected with Trypanosoma cruzi and its relationships with the irreversible decrease of motor activity of the rear limbs during acute Chagas´disease. The course of the present study shows the in vivo behaviour of three parasites strains which were isolated from different sources and geographical areas, with the purpose of explaining the parasitemia, mortality rate, clinical, pathological and histopathological changes in the CNS of infected mice. The mice were injected intraperitoneally with 5.103 bloodstreams of different T. cruzi strains. The mice infected with PR and ASM strains from Venezuela, showed low parasitemia and high mortality, while the Y strain produced higher parasitemia levels. At the 30th day post-infection both left parietal brain cortex (LPC) and spinal cord (SC) were sectioned, stained with hematoxilin and eosin (H-E) and examined by means of confocal ligth microscopy. At this time, the pathology of the CNS exhibited focal infiltrates of monocytes, lymphocytes, plasmocytes, polymorphonuclear cells and loss of neuronas and motoneurons. The sections of LPC of infected mice with ASM strain, showed loss neuronal, parasites and abundant T. cruzi antigen deposits in the proximity of the swollen neurons. The sections of SC stained with Enolase-Avidin-Biotin-Peroxidase showed a reduction in the average number of neurons of the cervical region (CR) of the infected mice with PR, ASM and Y strains. Sections stained with Propidium Ioduro (IP) showed a reduction of the number of motoneurons in all regions of the SC, with a significant difference between groups infected with different T. cruzi strains and control uninfected mice (P < 0.05). This study established a correlation between the parasitism in the proximity to inflammatory cells, together the appearance of T. cruzi antigen and neuronal destruction in the brain. Therefore it can be concluded that the changes in CNS may be attributed to early parasitism in nervous tissue, which occur in a few days, involving clinico-pathological manifestations, which produced alterations of the mobility with paralysis of the rear limbs and death in 100% of mice with acute infection produced by PR and ASM-T. cruzi strains from Venezuela.

Internalization of a GFP-tetanus toxin C-terminal fragment fusion protein at mature mouse neuromuscular junctions.

The distribution, dynamics, internalization, and retrograde axonal traffic of a fusion protein composed of green fluorescent protein (GFP) and the atoxic C-terminal fragment of tetanus toxin (TTC) were studied after its in vivo injection. Confocal microscopy and immunogold electron microscopy revealed that the fusion protein (GFP-TTC) rapidly clustered in motor nerve terminals of the neuromuscular junction. Clathrin-coated pits, and axolemma infoldings located between active zones appeared to be involved in the internalization of the fusion protein. Biochemical analysis of detergent-extracted neuromuscular preparations showed that the GFP-TTC fusion protein was associated with lipid microdomains. We suggest that GFP-TTC clustering in these lipid microdomains favors the recruitment of other proteins involved in its endocytosis and internalization in motor nerve terminals. During its retrograde trafficking, GFP-TTC accumulated in different axonal compartments than those used by cholera toxin B-subunit suggesting that these two proteins are transported by different pathways and cargos.

Nuclear inositol 1,4,5-trisphosphate receptors regulate local Ca2+ transients and modulate cAMP response element binding protein phosphorylation.

Several lines of evidence indicate that increases in nuclear Ca(2+) have specific biological effects that differ from those of cytosolic Ca(2+), suggesting that they occur independently. The mechanisms involved in controlling nuclear Ca(2+) signaling are both controversial and still poorly understood. Using hypotonic shock combined with mechanical disruption, we obtained and characterized a fraction of purified nuclei from cultured rat skeletal myotubes. Both immunoblot studies and radiolabeled inositol 1,4,5-trisphosphate [IP(3)] binding revealed an important concentration of IP(3) receptors in the nuclear fraction. Immunofluorescence and immunoelectron microscopy studies localized type-1 and type-3 IP(3) receptors in the nucleus with type-1 receptors preferentially localized in the inner nuclear membrane. Type-2 IP(3) receptor was confined to the sarcoplasmic reticulum. Isolated nuclei responded to IP(3) with rapid and transient Ca(2+) concentration elevations, which were inhibited by known blockers of IP(3) signals. Similar results were obtained with isolated nuclei from the 1B5 cell line, which does not express ryanodine receptors but releases nuclear Ca(2+) in an IP(3)-dependent manner. Nuclear Ca(2+) increases triggered by IP(3) evoked phosphorylation of cAMP response element binding protein with kinetics compatible with sequential activation. These results support the idea that Ca(2+) signals, mediated by nuclear IP(3) receptors in muscle cells, are part of a distinct Ca(2+) release component that originates in the nucleus and probably participates in gene regulation mediated by cAMP response element binding protein.

Internalization of a GFP-tetanus toxin C-terminal fragment fusion protein at mature mouse neuromuscular junctions.

The distribution, dynamics, internalization, and retrograde axonal traffic of a fusion protein composed of green fluorescent protein (GFP)and the atoxic C-terminal fragment of tetanus toxin (TTC) were studied after its in vivo injection. Confocal microscopy and immuno-gold electron microscopy revealed that the fusion protein (GFP-TTC) rapidly clustered in motor nerve terminals of the neuromuscular junction. Clathrin-coated pits, and axolemma infoldings located between active zones appeared to be involved in the internalization of the fusion protein. Biochemical analysis of detergent-extracted neuromuscular preparations showed that the GFP-TTC fusion protein was associated with lipid microdomains. We suggest that GFP-TTC clustering in these lipid microdomains favors the recruitment of other proteins involved in its endocytosis and internalization in motor nerve terminals. During its retrograde trafficking, GFP-TTC accumulated indifferent axonal compartments than those used by cholera toxin B-subunit suggesting that these two proteins are transported by different pathways and cargos.

Neuregulin-2 is synthesized by motor neurons and terminal Schwann cells and activates acetylcholine receptor transcription in muscle cells expressing ErbB4.

Acetylcholine receptor (AChR) genes are transcribed selectively in synaptic nuclei of skeletal muscle fibers, leading to accumulation of the mRNAs encoding AChR subunits at synaptic sites. The signals that regulate synapse-specific transcription remain elusive, though Neuregulin-1 is considered a favored candidate. Here, we show that motor neurons and terminal Schwann cells express neuregulin-2, a neuregulin-1-related gene. In skeletal muscle, Neuregulin-2 protein is concentrated at synaptic sites, where it accumulates adjacent to terminal Schwann cells. Neuregulin-2 stimulates AChR transcription in cultured myotubes expressing ErbB4, as well as ErbB3 and ErbB2, but not in myotubes expressing only ErbB3 and ErbB2. Thus, Neuregulin-2 is a candidate for a signal that regulates synaptic differentiation.

IP3 receptors and Ca2+ signals in adult skeletal muscle satellite cells in situ

In this short article we review muscle satellite cell characteristics and our studies in adult rodent muscle satellite cells in situ. Using confocal laser scanning microscopy and immunocytochemistry, a high level of IP3 receptor (IP3R) immunostaining was detected in satellite cells. These cells were identified by their peripheral position, their size, the shape of their nucleus, the paucity of the apparent cytoplasm, and the immunostaining with specific molecular markers such as a-actinin, the neural cell adhesion molecule (N-CAM) and desmin. High extracellular K+ (60 mM) induced long-lasting Ca2+ signals in satellite cells in situ. We suggest that electrical activity stimulates IP3-associated Ca2+ signals that could act in concert with signaling pathways triggered by growth factors and/or hormones.

IP3 receptors and associated Ca2+ signals localize to satellite cells and to components of the neuromuscular junction in skeletal muscle.

Recently, we described an inositol 1,4,5-trisphosphate (IP3) signaling system in cultured rodent skeletal muscle, triggered by high K+ and affecting gene transcription (Powell et al., 2001). Now, in a study of adult rodent skeletal muscle, using immunocytology and confocal microscopy, we have found a high level of IP3 receptor (IP3R) staining in satellite cells, which have been shown recently to contribute to nuclei in adult fibers after muscle exercise. These IP3R staining cells are positively identified as satellite cells by their position, morphology and staining with satellite-cell-specific antibodies such as desmin and neural cell adhesion molecule. IP3Rs are also localized to postsynaptic components of the neuromuscular junction (NMJ), in areas surrounding the nuclei of the motor end plate, and in perisynaptic Schwann cells, and localized close to nicotinic acetylcholine receptors of the endplate gutters. Ca2+ imaging experiments show calcium release at the motor endplate upon K+ depolarization precisely in these IP3R-rich regions. We suggest that electrical activity stimulates IP3-associated Ca2+ signals that may be involved in gene regulation in satellite cells and in elements of the NMJ, contributing both to muscle fiber growth and stabilization of the NMJ.