Role of the apical and basolateral domains of the enterocyte in the regulation of cholesterol transport by a high glucose concentration.

We have recently shown that a high glucose (HG) concentration raised intestinal cholesterol (CHOL) transport and metabolism in intestinal epithelial cells. The objective of the present work is to determine whether the stimulus for increased CHOL absorption by glucose originates from the apical site (corresponding to the intestinal lumen) or from the basolateral site (related to blood circulation). We tackled this issue by using differentiated Caco-2/15 cells. Only basolateral medium, supplemented with 25 mmol/L glucose, stimulated [(14)C]-CHOL uptake via the up-regulation of the critical CHOL transporter NPC1L1 protein, as confirmed by its specific ezetimibe inhibitor that abolished the rise in glucose-mediated CHOL capture. No significant changes were noted in SR-BI and CD36. Elevated CHOL uptake was associated with an increase in the transcription factors SREBP-2, LXR-ß, and ChREBP, along with a fall in RXR-α. Interestingly, although the HG concentration in the apical medium caused modest changes in CHOL processing, its impact was synergetic with that of the basolateral medium. Our results suggest that HG concentration influences positively intestinal CHOL uptake when present in the basolateral medium. In addition, excessive consumption of diets containing high levels of carbohydrates may strengthen intestinal CHOL uptake in metabolic syndrome, thereby contributing to elevated levels of circulating CHOL and, consequently, the risk of developing type 2 diabetes and cardiovascular disease.

CFTR knockdown stimulates lipid synthesis and transport in intestinal Caco-2/15 cells.

Cystic fibrosis transmembrane conductance regulator (CFTR) is a chloride channel highly expressed in epithelial cells of the gastrointestinal tract. Mutations in the CFTR gene cause cystic fibrosis (CF), a disease characterized by pancreatic insufficiency, fat malabsorption, and steatorrhea. Despite the administration of pancreatic enzymes to normalize malabsorption, CF patients still experienced lipid fecal loss, nutritional deficiencies, and abnormalities in serum lipid profile, suggesting the presence of intrinsic defects in the intestinal handling of nutrients. The objective of the present study was to assess the impact of CFTR gene knockdown on intracellular lipid metabolism of the intestinal Caco-2/15 cell line. Partial CFTR gene inactivation led to cellular lipid accretion of phospholipids, triglycerides, and cholesteryl esters. Likewise, secretion of these lipid fractions was significantly increased following CFTR gene manipulation. As expected from these findings, the output of triglyceride-rich lipoproteins showed the same increasing pattern. Investigation of the mechanisms underlying these changes revealed that CFTR knockdown resulted in raised levels of apolipoproteins in cells and media and microsomal transfer protein activity, two important factors for the efficient assembly and secretion of lipoproteins. Similarly, scrutiny of the enzymatic monoacylglycerol acyltransferase and diacylglycerol acyltransferase, which exhibit dynamic function in triacylglycerol resynthesis and chylomicron formation in enterocytes, revealed a significant augmentation in their activity. Conversely, cholesterol uptake mediated by Niemann-Pick C1 like 1, Scavenger Receptor Class B Type I, and ATP-binding cassette G8 remains unaffected by genetic modification of CFTR. Collectively, these results highlight the role played by CFTR in intestinal handling of lipids and may suggest that factors other than defective CFTR are responsible for the abnormal intracellular events leading to fat malabsorption in CF patients.

Genetic diversity of Giardia intestinalis populations in Colombia.

INTRODUCTION: Giardia intestinalis is a protozoan parasite that causes a gastrointestinal infection known as giardiosis, which is transmitted primarily through fecal-oral contamination. Genetic studies of axenically cultivated Giardia isolates have identified two major genetic groups distributed throughout the world. In the present study 24 native strains of the parasite were analyzed by the RAPD technique (Random Amplified Polymorphic DNA). OBJECTIVE: To determine the level of polymorphism and the complexity of Giardia intestinalis circulating strains in specific areas of Colombia. MATERIALS AND METHODS: The RAPD method was used, as it allows for a quick, simple and reliable analysis that requires no prior knowledge of the genetics of the parasite. A RAPD analysis was conducted on native isolates collected in Colombia between 1997 and 2001, established in continuous cultures. Several primers were tested separately, in order to enhance the capacity for discrimination of the method. RESULTS: Of the 24 strains that were included in the study, 22 were arranged in independent clusters. The strains that were from the same geographic area and collected at about the same time, generally displayed highly similar but distinguishable RAPD patterns. Clones isolated from a strain were analyzed as well, and it was possible to differentiate them molecularly. CONCLUSION: The studied strains showed to belong to genotype A . The results suggest that the Colombian strains studied consist of a heterogeneous mixture of closely related populations.

[Genotyping of the Plasmodium falciparum msp1 (block 2) and dhfr (codon 108) genes in field samples collected in four endemic Colombian localities]. / Genotipificación de los genes msp1 (bloque 2) y dhfr (codón108) de Plasmodium falciparum en muestras de campo recolectadas en cuatro localidades endémicas de Colombia.

INTRODUCTION: Plasmodium falciparum is a highly polymorphic parasite, which allows it to evade the host's immune response, spread drug resistance and favours transmission. OBJECTIVES: To analyse the genetic diversity of P. falciparum populations in samples from four endemic localities in Colombia. MATERIALS AND METHODS: 123 blood samples were collected on filter paper from patients with non-complicated P. falciparum malaria during 2002 to 2004. The samples were genotyped using polymerase chain reaction with specific primers for the polymorphic region of block 2 of the msp1 gene and the 108 codon of the dhfr gene. RESULTS: In msp1 block 2, 95.9% (118/123; 95% CI: 90.8-98.7) of the samples harboured MAD20; 6.5% K1 (8/123; 95% CI: 2.8-12.4) and 2.4% RO33 (3/123; 95% CI: 0.5-6.9). For the dhfrgene the mutant allele N 108 was found in all the samples amplified, T 108 in 3.2% and the wild type S108 in 34.1%. Taking together all the results from both genes, 61.8% (76/123; 95% CI: 52.6-70.4) of the samples were simple infections and 38.2% (47/123; 95% CI: 29.6-47.4) were mixed infections. MAD20/N108-S108 (30.1%) was the most frequent combination among the latter. CONCLUSIONS: Simple infections, i.e, a single allelic type in each one of the genes studied, prevailed among the circulating parasite populations. In this study the genetic composition of P. falciparum parasite populations was very homogeneous.

Genotipificación de los genes msp1 (bloque 2) y dhfr (codón108)de Plasmodium falciparum en muestras de campo recolectadas en cuatro localidades endémicas de Colombia / Genotyping of the Plasmodium falciparum msp1 (block 2) and dhfr (codon 108) genes in field samples collected in four endemic Colombian localities

Introducción. Plasmodium falciparum es un parásito altamente polimórfico, lo cual le permite evadir la respuesta inmune del hospedero, diseminar la resistencia a medicamentos y favorecer la transmisión. Objetivos. Analizar la diversidad genética de las poblaciones de P. falciparum en muestras de cuatro zonas endémicas de malaria en Colombia. Materiales y métodos. Se incluyeron muestras de sangre recolectadas en papel de filtro de123 pacientes con malaria no complicada por P. falciparum durante los años 2002 a 2004; la genotipificación se realizó mediante reacción en cadena de la polimerasa con iniciadores específicos para los marcadores moleculares de la región polimórfica del bloque 2 del gen msp1 y del codón 108 de dhfr. Resultados. En el bloque 2 del gen msp1 se detectó MAD20 en 95,9 por ciento (118/123; IC 95 por ciento: 90,8 a 98,7), K1 en 6,5 por ciento (8/123; IC 95 por ciento: 2,8 a 12,4) y RO33 en 2,4 por ciento (3/123; IC 95 por ciento: 0,5 a 6,9) de las muestras. Para el gen dhfr, el alotipo mutante N108 se detectó en todas las muestras analizadas y el alotipo T108 en 3,2 por ciento (4/123; IC 95 por ciento: 0,9 a 8,1); el alotipo silvestre S108 se encontró en 34,1 por ciento (42/123; IC 95 por ciento: 25,8 a 43,2). Al combinar los resultados de ambos genes, el 61,8 por ciento (76/123; IC 95 por ciento: 52,6 a 70,4) de las muestras correspondieron a infecciones simples y el 38,2 por ciento (47/123; IC 95 por ciento: 29,6 a 47,4) a infecciones mixtas, siendo MAD20/N108-S108 la combinación más frecuente entre estas últimas (30,1 por ciento). Conclusiones. Las infecciones simples, o sea, la presencia de un solo alelo en cada uno de los genes, predominaron en las muestras estudiadas; las poblaciones de parásitos analizadas fueron muy homogéneas en su composición genética.