Anti-inflammatory and anti-aggregating effects of rangpur in the first trimester of growth: ultra-performance liquid chromatography-electrospray mass spectrometry profile and quantification of hesperidin.

BACKGROUND: Citrus fruits are a rich source of valuable molecules, and their industrial processing produces bagasses, little explored to generate important by-products. These Citrus residues, including seeds and peels, also contain numerous pharmacologically important substances. To reduce the impact of these Citrus by-products, young, harvested fruits could be used as a functional supplemental food while another part is grown until maturity for industrial production. This study therefore aims to valorize rangpur (Citrus limonia) in the first 3 months of its growth by investigating and comparing its monthly chemical profiles using ultra-performance liquid chromatography-electrospray mass spectrometry (UPLC-ESI-MS) and its anti-inflammatory and antiplatelet activity. RESULTS: Extracts obtained from the fruits harvested in November, December, and January, 2017 and 2018 (L221117, L161217, and L160118) showed different UPLC-ESI-MS profiles. Twenty-five of the 26 detected metabolites were identified as cyclitol, pyrrolidine betaine, aryl propanoyl esters, chlorogenic acids, flavonoids, coumarins, and limonoids. Quantification studies indicated an increased concentration of hesperidin from the younger fruits to the older fruits of the series. L160118 reduced nitrogen oxide (NOx), tumor necrosis factor alpha (TNF-α), and interleukin 6 (IL-6) levels more than other extracts. Their activity followed the same trends as the hesperidin concentration in each fruit. In contrast, the most promising antiplatelet activity was observed with the extracts from the two youngest fruits. This suggests combined effects of the chemical components found in these fruits' extracts. CONCLUSION: The extracts obtained from these young fruits showed considerable anti-inflammatory and antiplatelet activity. Overall, young rangpur could be used as raw material to produce functional foods without producing any waste. © 2022 Society of Chemical Industry.

In vitro effect of the herbicide glyphosate on human blood platelet aggregation and coagulation / Efeito in vitro do herbicida glifosato na agregação plaquetária e coagulação sanguínea em humanos

Glyphosate [N-(phosphonomethyl)-glycine] is a broad-spectrum, non-selective, post-emergence herbicide that is extensively used in agriculture. Published data referring to the effects of this product on human health are contradictory. We showed previously that long-term treatment of rats with low doses of Glyphosate-Biocarb® may induce hepatic histological changes and bleeding without decreasing platelet counts. The aim of the current study was to investigate, in vitro, the effect of glyphosate on human blood platelet aggregation and coagulation. Materials and methods: Platelet aggregation was determined in the platelet-rich plasma using the agents: 6µM-adenosine diphosphate, 6µM-epinephrine and 4µg/mL-collagen. Pretreatment with 500µg/mL glyphosate showed significant hypofunction of the three aggregating agents. The inhibitory effect was dose-dependent at concentrations from 50 to 500 µg/mL. The release of ATP was lower for glyphosate-treated platelets after stimulation by collagen. On the other hand, glyphosate did not promote any inhibitory effects on prothrombin time, thromboplastin time and thrombin time. In conclusion, the results demonstrate that glyphosate promotes changes in the platelet metabolism with an inhibitory effect on primary hemostasis.

O glifosato [N-(phosphonomethyl)-glycine] é um herbicida pós-emergente não seletivo de amplo espectro muito utilizado na agricultura. Dados da literatura referentes aos efeitos desse produto na saúde humana são contraditórios. Em estudos prévios demonstramos que ratos previamente tratados com glifosato apresentavam lesões hepáticas e sangramento sem alterações quantitativas de plaquetas. O objetivo do presente estudo é investigar os efeitos in vitro do glifosato (GP) na agregação plaquetária e coagulação sanguínea em humanos. A agregação plaquetária foi determinada em plasma rico em plaquetas (PRP) usando os agentes adenosina difosfato (ADP) 6µM, epinefrina 6µM e colágeno 4µg/mL. Pré-tratamento com GP 500µg/mL demonstrou significativa hipofunção dos três agentes agregantes. O efeito inibitório foi dose dependente em concentrações de 50-500 µg/mL. Utilizando-se a quantificação de ATP como um índice da capacidade de secreção plaquetária, foi observado diminuição da liberação das plaquetas tratadas com GP. Por outro lado, o GP não promoveu efeito inibidor no tempo de protrombina (TP), tempo de tromboplastina parcial ativada (ATTP) e tempo de trombina (TT). Em conclusão, os resultados demonstram que o GP promove mudanças no metabolismo plaquetário com efeito inibitório na hemostasia primária.

Síndromes mielodisplásicas: aspectos moleculares, laboratoriais e a classificação OMS 2008 / Myelodysplasic symdrome: molecular and laboratorial aspects and the 2008 WHO classification

As síndromes mielodisplásicas (SMDs) são caracterizadas por uma desordem clonal de células primordiais (stem cell) e hematopoese ineficaz que levam à displasia de uma ou mais linhagens celulares da medula óssea, citopenias periféricas e instabilidade genética, as quais aumentam o risco de transformação à leucemia mieloide aguda. Esse grupo heterogêneo de doenças hematopoéticas pode surgir como doença primária, que possui etiologia variada e não completamente definida, ou secundária ao tratamento quimioterápico ou radioterápico para outras neoplasias. O surgimento e aprimoramento de tecnologias de diagnóstico geraram uma melhor compreensão dos processos envolvidos na gênese e evolução das SMDs, o que possibilitou o desenvolvimento de marcadores de diagnóstico e acompanhamentos cada vez mais precoces e específicos. No ano de 2008, a Organização Mundial da Saúde (OMS) redefiniu os critérios para classificação das SMDs, dividindo-as em sete subgrupos. Nessa classificação foram incluídos novos aspectos imunofenotípicos, genéticos, citomorfológicos e moleculares, o que tornou o domínio e o acesso a tecnologias de ponta imprescindíveis para a realização do diagnóstico das SMDs. Apesar dos avanços tecnológicos, alguns pontos, como as bases moleculares da transformação de SMD para LMA, ainda não estão bem esclarecidos, fazendo necessária a continuação de estudos nessa área. Diante disso, essa revisão busca compilar dados atuais dos aspectos moleculares e laboratoriais das SMDs.

Myelodysplastic syndromes (MDSs) are characterized by a stem cell clonal disorder and ineffective hematopoiesis which causes dysplasia in one or more bone marrow hematopoietic cell lineages, peripheral cytopenia and genetic instability with enhanced risk to transform into acute myeloid leukemia (AML). This heterogeneous group of hematopoietic diseases can develop as primary diseases, which posses a variable and not completely defined etiology, or as secondary to chemotherapy or radiotherapy for other neoplasias. The evolution of diagnostic tests has improved comprehension of the process involved in the genesis and evolution of MDSs, making the development of earlier and more specific tests for diagnosis and follow ups possible. In 2008, the World Health Organization (WHO) redefined the criteria for the classification of MDSs, dividing them into seven subgroups. This classification included new immunophenotypic, genetic, cytomorphologic and molecular features, which are essential for the diagnosis of MDSs and for a better comprehension of the disease. Despite technological advances, some details, such as the molecular basis of the transformation of MDS to AML, are still not completely understood, which makes further studies in this field necessary. Hence, the objective of this review is to make a compilation of recent molecular and laboratory aspects of MDS.