Speciation analysis of Arsenic in fish and rice samples using liquid chromatography-inductively coupled plasma mass spectrometry

Chemical speciation in foodstuffs is of uttermost importance since it is nowadays recognized that both toxicity and bioavailability of an element depend on the chemical form in which the element is present. Regarding arsenic, inorganic species are classified as carcinogenic while organic arsenic, such as arsenobetaine (AsB) or arsenocholine (AsC), is considered less toxic or even non-toxic. Coupling a High Performance Liquid Chromatographer (HPLC) with an Inductively Coupled Plasma Mass Spectrometer (ICP-MS) combines the power of separation of the first with the selectivity and sensitivity of the second. The present work aims at developing a method, using HPLC-ICP-MS technique, to identify and quantify the chemical species of arsenic present in two food matrices, rice and fish. Two extraction methods, ultrasound and microwave, and different settings were studied. The best method was chosen based on recovery percentages. To ensure that no interconversion of species was occurring, individual spikes of each species of arsenic were made in both matrices and recovery rates were calculated. To guaranty accurate results reference material BCR-627 TUNA FISH, containing certified values for AsB and DMA, was analyzed. Chromatographic separation was achieved using an anion exchange column, HAMILTON-PRP X-100, which allowed to separate the four arsenic species for which standards were available (AsB, dimethylarsenic (DMA), arsenite (AsIII), arsenate (AsV). The mobile phase was chosen based on scientific literature and adjusted to laboratory conditions. Different gradients were studied. As a result we verified that the arsenic species present in both matrices were not the same. While in fish 90% of the arsenic present was in the form of arsenobetaine, in rice 80% of arsenic was present as DMA and 20% as inorganic arsenic.

Baobab: uma fonte natural de vitamina C

Introdução: As vitaminas distinguem-se de outros constituintes dietéticos por, em quantidades mínimas, beneficiarem diversos processos metabólicos. A vitamina C (ácido L-ascórbico), presente em frutas e legumes, é fundamental para a nutrição humana, por ser um antioxidante natural. No entanto, os teores do ácido L-ascórbico, principal forma biologicamente ativa desta vitamina, decrescem significativamente ao longo do amadurecimento dos alimentos. O conhecimento da composição nutricional e fitoquímica de frutos exóticos, caso da múcua (Baobab), pode dar a conhecer novas fontes de bioativos e permitir a sua valorização, contribuindo para a sustentabilidade social e económica da região de origem. Objetivos: Análise quantitativa do teor total de vitamina C da polpa do fruto da Adansonia digitata L., conhecida Baobab, espécie nativa de África. Métodos: O teor de ácido ascórbico foi determinado por HPLC-DAD, segundo um método previamente validado. 2 g de amostra foram adicionados a 12 mL de solução estabilizadora (ácido perclórico 10%, v/v) + ácido metafosfórico 1%, p/v). Para a determinação do teor de vitamina C total, utilizou-se tris(2-carboxietil) fosfina (5 mM). O teor de ácido desidroascórbico (forma biologicamente menos ativa) foi determinado por diferença. Resultados: O teor total de vitamina C foi de 26,1 mg/100 g, sendo 22,8 mg/100 g de ácido L-ascórbico e 3,33 mg/100 g de ácido desidroascórbico. Embora estes valores sejam significativamente inferiores aos descritos na laranja (49,1 mg/100 g) e no kiwi (55,2 mg/100 g), este fruto tem um período de conservação substancialmente maior. Atendendo aos seus teores reduzidos de humidade, o Baobab pode ser uma alternativa natural rica em antioxidantes. Conclusões: Este estudo salienta o potencial efeito antioxidante de uma fruta tropical pouco estudada e apenas consumida pela população local. A estabilidade do teor de ácido L-ascórbico observada no Baobab promove novas perspetivas de exploração e utilização de recursos naturais, no âmbito das ciências da nutrição.

New insights into host-parasite ubiquitin proteome dynamics in P. falciparum infected red blood cells using a TUBEs-MS approach

Malaria, caused by Plasmodium falciparum (P. falciparum), ranks as one of the most baleful infectious diseases worldwide. New antimalarial treatments are needed to face existing or emerging drug resistant strains. Protein degradation appears to play a significant role during the asexual intraerythrocytic developmental cycle (IDC) of P. falciparum. Inhibition of the ubiquitin proteasome system (UPS), a major intracellular proteolytic pathway, effectively reduces infection and parasite replication. P. falciparum and erythrocyte UPS coexist during IDC but the nature of their relationship is largely unknown. We used an approach based on Tandem Ubiquitin-Binding Entities (TUBEs) and 1D gel electrophoresis followed by mass spectrometry to identify major components of the TUBEs-associated ubiquitin proteome of both host and parasite during ring, trophozoite and schizont stages. Ring-exported protein (REX1), a P. falciparum protein located in Maurer's clefts and important for parasite nutrient import, was found to reach a maximum level of ubiquitylation in trophozoites stage. The Homo sapiens (H. sapiens) TUBEs associated ubiquitin proteome decreased during the infection, whereas the equivalent P. falciparum TUBEs-associated ubiquitin proteome counterpart increased. Major cellular processes such as DNA repair, replication, stress response, vesicular transport and catabolic events appear to be regulated by ubiquitylation along the IDC P. falciparum infection.

New insights into functional regulation in MS-based drug profiling

We present a novel data analysis strategy which combined with subcellular fractionation and liquid chromatography-mass spectrometry (LC-MS) based proteomics provides a simple and effective workflow for global drug profiling. Five subcellular fractions were obtained by differential centrifugation followed by high resolution LC-MS and complete functional regulation analysis. The methodology combines functional regulation and enrichment analysis into a single visual summary. The workflow enables improved insight into perturbations caused by drugs. We provide a statistical argument to demonstrate that even crude subcellular fractions leads to improved functional characterization. We demonstrate this data analysis strategy on data obtained in a MS-based global drug profiling study. However, this strategy can also be performed on other types of large scale biological data.