Cross-Neutralizing Anti-Chikungunya and Anti-Dengue 2 IgG Antibodies from Patients and BALB/c Mice against Dengue and Chikungunya Viruses.

Dengue (DENV) and Chikungunya (CHIKV) viruses can be transmitted simultaneously by Aedes mosquitoes, and there may be co-infections in humans. However, how the adaptive immune response is modified in the host has yet to be known entirely. In this study, we analyzed the cross-reactivity and neutralizing activity of IgG antibodies against DENV and CHIKV in sera of patients from the Mexican Institute of Social Security in Veracruz, Mexico, collected in 2013 and 2015 and using IgG antibodies of BALB/c mice inoculated with DENV and/or CHIKV. Mice first inoculated with DENV and then with CHIKV produced IgG antibodies that neutralized both viruses. Mice were inoculated with CHIKV, and then with DENV; they had IgG antibodies with more significant anti-CHIKV IgG antibody neutralizing activity. However, the inoculation only with CHIKV resulted in better neutralization of DENV2. In sera obtained from patients in 2013, significant cross-reactivity and low anti-CHIKV IgG antibody neutralizing activity were observed. In CHIKV-positive 2015 sera, the anti-DENV IgG antibody neutralizing activity was high. These results suggest that CHIKV stimulates DENV2-induced memory responses and vice versa. Furthermore, cross-reactivity between the two viruses generated neutralizing antibodies, but exchanging CHIKV for DENV2 generated a better anti-CHIKV neutralizing response.

Developmental Toxicity Study of DL-4-Hydroxy-4-Phenylhexanamide (DL-HEPB) in Rats.

Antiepileptic drugs affect embryonic development when administered during pregnancy, generating severe alterations, such as as cleft lip, spina bifida, heart abnormalities, or neuronal alterations. The compound DL-4-hydroxy-4-phenylhexanamide (DL-HEPB), a phenyl alcohol amide structurally different from known anticonvulsants, has shown good anticonvulsant effects in previous studies. However, its effects on intrauterine development are unknown. So, the purpose of this study was to determine the potential of DL-HEPB to produce alterations in conceptus. Pregnant Wistar rats were orally exposed to 0, 50, 100, and 200 mg/kg of DL-HEPB during organogenesis, and their food consumption and weight gain were measured. On gestation day 21, pregnant females were euthanized to analyze the fetuses for external, visceral, and skeletal malformations. A significant decrease in food consumption and body weight was observed in mothers, without any other manifestation of toxicity. In fetuses, no external malformations, visceral, or skeletal abnormalities, were observed under the dose of 100 mg/kg, while the dose of 200 mg/kg caused malformations in low frequency in brain and kidneys. In view of the results obtained, DL-HEPB could be a good starting point for the design of new highly effective anticonvulsant agents, with much lower developmental toxicity than that shown by commercial anticonvulsants.

Sympathectomy Effects on Intra-Abdominal Organ Catecholamine Levels in a Streptozotocin-Induced Diabetic Rat Model.

Diabetes mellitus (DM) is a metabolic disorder whose prevalence has continuously increased worldwide and is associated with dysfunction of the autonomic nervous system and, in particular, that of the sympathetic nervous system (SNS). The objective of this study was to analyze the interaction of DM and the SNS, building a model of sympathectomized diabetic rats to determine alterations in the content of CA (catecholamines) in different intra-abdominal organs. Sympathectomy was conducted with guanethidine (GNT). Additionally, DM was induced with STZ (Streptozotocin). Treatment with GNT decreased norepinephrine (NE) content in all analyzed tissues, with significant differences found in the paraganglia, liver, pancreas, duodenum, and heart compared to the control group. With respect to epinephrine (E), which was only found in the liver, pancreas, and heart, presenting significant differences (p < 0.05) in the heart, a decrease in its concentration was observed for all of the experimental groups with respect to the control. The decrease in dopamine (DA) content due to the GNT−STZ treatment was 30.1% in the heart with respect to the diabetic (STZ) group. The amount of CA in the adrenal medulla indicates the effect of sympathectomy on the GNT group where there was a significant reduction (p < 0.05) of DA. These findings suggest that the elimination of the sympathetic nervous system in diabetic organisms contributed to a decrease in blood glucose; likewise, an alteration in the levels of CA was observed in the different selected organs, possibly attributed to the severity, duration, and pathogenesis of the complications of acute and chronic DM.

Protección de la Spirulina maxima sobre la citotoxicidad de la hidroxiurea en células embrionarias de ratón / Protection of Spirulina maxima on cytotoxicity of hydroxyurea in mouse embryonic cells / Proteção de Spirulina maxima em citotoxicidade de hidroxiureia em células embrionárias de camundongo

La Spirulina maxima (SP) tiene efectos farmacológicos protectores por su contenido de ficobiliproteínas que están relacionados con su actividad antioxidante. La hidroxiurea (HU) es un fármaco antineoplásico, citotóxico y teratógeno que implica la inducción del estrés oxidativo. El objetivo de este trabajo fue determinar si la SP y su extracto acuoso de proteína (SPE) protegen contra el efecto citotóxico de HU en cultivos celulares primarios a partir de embriones de ratón de once días. Los efectos de SP, SPE e HU sobre la viabilidad celular se determinaron por el ensayo de fluorescencia de resazurina en cultivos celulares de embriones completos de ratones de once días, de encéfalo y de brotes de extremidades anteriores. Se demostró que ni SP ni su extracto provocaron efectos citotóxicos en ninguna concentración ensayada, por lo que se aumentaba la viabilidad celular. Se encontró que las células expuestas a HU de embriones completos y encéfalo mostraron mayor toxicidad que las células de los miembros anteriores. La SP y el SPE protegieron contra la citotoxicidad de HU de una manera dependiente de la concentración hasta 48 h después de la exposición al fármaco. Este efecto podría ser adecuado para prevenir la muerte celular que deriva en un proceso teratogénico, atribuido a sus propiedades antioxidantes.

Spirulina maxima (SP) has protective pharmacological effects that are related to the antioxidant activity due to its phycobiliprotein content. Hydroxyurea (HU) is an antineoplastic, cytotoxic and teratogenic drug, which involves the induction of oxidative stress. The aim of this study was to determine whether SP and its aqueous protein extract (SPE) protect against the cytotoxic effect of HU in primary cell cultures from mouse embryos. The effects of SP, SPE, and HU on cell viability were determined by resazurin fluorescence assay in whole embryo cell cultures, encephalon, and eleven-day-old forehead bud outbreaks. It was shown that neither SP nor its extract caused cytotoxic effects at any concentration tested, increasing cell viability. It was found that cells exposed to HU of whole embryos and encephalon showed higher toxicity than cells of the previous limbs. SP and SPE protected HU cytotoxicity in a concentration-dependent manner up to 48 hours after exposure to the drug. This effect could be adequate to prevent cell death resulting in a teratogenic process attributed to its antioxidant properties.

Spirulina maxima (SP) tem efeitos farmacológicos protetores devido a seu conteúdo de ficobiliproteínas, que estão relacionadas com sua atividade antioxidante. A hidroxiureia (HU) é uma droga antineoplásica, citotóxica e teratogênica, que envolve a indução do estresse oxidativo. O objetivo deste estudo foi determinar se a SP e seu extrato aquoso de proteína (SPE) protegem contra o efeito citotóxico da HU em culturas celulares primárias a partir de embriões de camundongo de onze dias. Os efeitos de SP, SPE e HU na viabilidade celular foram determinados pelo ensaio de fluorescência de resazurina em culturas celulares de embriões inteiros de camundongos de onze dias, de encéfalo e de surtos de extremidades anteriores. Demonstrou-se que nem a SP nem seu extrato causaram efeitos citotóxicos em qualquer concentração testada, aumentando a viabilidade celular. Verificou-se que as células expostas à HU de embriões completos e encéfalo mostraram maior toxicidade do que as células dos membros anteriores. SP e SPE protegem contra a citotoxicidade de HU de forma dependente da concentração até 48 h após a exposição ao medicamento. Esse efeito poderia ser adequado para prevenir a morte celular, que resulta em um processo teratogênico atribuído a suas propriedades antioxidantes.

Neuroprotective effect of Arthrospira (Spirulina) platensis against kainic acid-neuronal death.

Context Arthrospira (Spirulina) platensis (SP) is a cyanobacterium which has attracted attention because of its nutritional value and pharmacological properties. It was previously reported that SP reduces oxidative stress in the hippocampus and protects against damaging neurobehavioural effects of systemic kainic acid (KA). It is widely known that the systemic administration of KA induces neuronal damage, specifically in the CA3 hippocampal region. Objective The present study determines if the SP sub-chronic treatment has neuroprotective properties against KA. Materials and methods Male SW mice were treated with SP during 24 d, at doses of 0, 200, and 800 mg/kg, once daily, and with KA (35 mg/kg, ip) as a single dose on day 14. After the treatment, a histological analysis was performed and the number of atrophic neuronal cells in CA3 hippocampal region was quantified. Results Pretreatment with SP does not protect against seizures induced by KA. However, mortality in the SP 200 and the SP 800 groups was of 20%, while for the KA group, it was of 60%. A single KA ip administration produced a considerable neuronal damage, whereas both doses of SP sub-chronic treatment reduced the number of atrophic neurons in CA3 hippocampal region with respect to the KA group. Discussion The SP neurobehaviour improvement after KA systemic administration correlates with the capacity of SP to reduce KA-neuronal death in CA3 hippocampal cells. This neuroprotection may be related to the antioxidant properties of SP. Conclusion SP reduces KA-neuronal death in CA3 hippocampal cells.

Preclinical antitoxic properties of Spirulina (Arthrospira).

CONTEXT: Spirulina (Arthrospira) exerts a wide spectrum of pharmacological activities which are mainly attributed to its antioxidant effect. However, Spirulina has also been reported (both in preclinical and in clinical scenarios) to exhibit other bioactive effects, including an antitoxic potential. OBJECTIVE: We performed a systematic review of the literature, conducted in TOXNET, PubMed/MEDLINE, and Science Direct-Scopus; all available years were included. Searching criteria included the effects of Spirulina on experimental poisonings from arsenic, cadmium, carbon tetrachloride, deltamethrin, fluoride, hexachlorocyclohexane, iron, lead, lindane, and mercury. RESULTS: In all cases, it was established that the blue-green alga, and its isolated compounds, effectively counteracted these pollutants toxic effects on the exposed organisms. Some molecular mechanisms are proposed, although they have not been fully elucidated yet. CONCLUSION: Spirulina could be a useful coadjuvant agent within clinical practice for treatment of these or other pollutants poisonings.