Entorno inflamatorio diferencial en pacientes con osteoporosis y diabetes mellitus tipo 2 / Differential inflammatory environment in patients with osteoporosis and type 2 diabetes mellitus

Objetivo: La diabetes mellitus tipo 2 (DM2) y la osteoporosis son enfermedades asociadas con un entorno pro-inflamatorio, cuya prevención mediante nuevas estrategias terapéuticas podría evitar su desarrollo. Sin embargo, existe un escaso número de estudios que evalúen el perfil inflamatorio de la osteoporosis en pacientes con DM2.El objetivo de este estudio se centró en evaluar la respuesta inflamatoria inmunitaria mediante concentraciones séricas de nueve citocinas, dos de ellas de carácter anti-inflamatorio (IL-10, IL-5) y seis pro-inflamatorias (IL-2, IL-6, IL-12 (p70), IL-17A, TNFα e IFNɣ) en 163 individuos con DM2 y 47 controles. Una subpoblación, formada por 43 pacientes DM2 sin osteoporosis, y 33 con osteoporosis, fue analizada en más profundidad a nivel de parámetros óseos. Además, hemos evaluado las hormonas calciotropas, los marcadores de remodelado óseo, densidad mineral ósea y fracturas vertebrales en la población, y hemos analizado la relación de las citocinas ensayadas con la DM2, la osteoporosis y las fracturas vertebrales prevalentes.Los pacientes con DM2 tenían concentraciones séricas significativamente más altas de IL-10 en comparación con el grupo control (0,5±1 vs. 0,14±0,3 pg/ml; p=0,016) y los niveles de IL-12 p70 se mostraron más bajos en pacientes con DM2 respecto a los controles (2,9±1,6 vs. 3,9±3,1 pg/ml; p=0,027).En el grupo de pacientes con DM2 y osteoporosis, los niveles de la citocina IL-6 resultaron elevados respecto al grupo de DM2 sin osteoporosis (10,9±14,6 vs. 4,5±7,0; p=0,017). También se observó una asociación de IL-5, siendo sus niveles más bajos en el grupo DM2 con osteoporosis (1,7±0,2 vs. 3,8±0,6; p=0,032). Además, la IL-5 mostró una correlación directa con los niveles del biomarcador de formación ósea fosfatasa alcalina ósea (r=0,277, p=0,004) en la subpoblación de pacientes con DM2. El resto de citocinas no mostraron diferencias significativas. (AU)

The major olive pollen allergen (Ole e I) shows both gametophytic and sporophytic expression during anther development, and its synthesis and storage takes place in the RER.

The distribution of Ole e I (the major olive pollen allergen) and its transcripts was investigated in the anther from premeiotic stages until the dehiscent pollen stage. Crude protein extracts were analyzed by immunoblotting and probed with a monoclonal antibody to Ole e I. The protein, with three variants, was found to accumulate from the early microspore stage onwards. In addition to the previously reported localization of the protein, Ole e I has been immunolocalized for the first time within the pollen wall and in the tapetum. Reverse transcription-polymerase chain reaction analysis using specific oligonucleotides and RNA extracted from whole anthers revealed that the Ole e I gene is expressed from the late tetrad stage onwards. No expression was found in control tissues such as petals, roots or leaves. Light microscopy in situ hybridization on developing flower buds and dehiscent pollen confirmed the transcripts to be present in both the microspores and the sporophytic tissue (tapetum). Labeling was found primarily in the tapetum, reaching the highest concentration in the cytoplasm of the developing and mature pollen, once tapetum started to degenerate. In situ hybridization at the transmission electron microscope level showed the transcripts to accumulate on ribosomes of the rough endoplasmic reticulum. These studies, together with others carried out previously by us, indicated that both synthesis and storage of Ole e I take place in the endoplasmic reticulum, coincidentally with the conspicuous changes suffered by this membrane system during pollen development. This process is most likely controlled at the transcriptional level. The localization of the protein in the pollen ectexine bring new insights into the function of the allergen, which are discussed.

Affinity chromatographic purification of antibodies to a biotinylated fusion protein expressed in Escherichia coli.

HOP1, a protein component of the synaptonemal complex in Saccharomyces cerevisiae which is believed to play an important role in meiotic synapsis, was expressed in Escherichia coli as a fusion protein incorporating a "tag" polypeptide which is biotinylated naturally in the bacteria. The HOP1 fusion protein was produced in an insoluble form within the bacteria; once solubilized using a denaturing agent, the protein was purified by avidin monomer affinity chromatography. The recombinant protein was used to immunize rabbits and produce polyclonal antibodies. Procedures for affinity purification of antibodies using the recombinant protein attached to the avidin column and a magnetic method for concentration of antibodies are described. Antibody elution conditions in these procedures do not affect the affinity of the column for the recombinant protein, which can be recovered afterward. Affinity-purified antibodies show high binding capacity to HOP1 recombinant protein in immunoblotting experiments, but reduced background compared with crude antiserum or purified IgG fraction. The affinity-purified antibodies recognize a major band around 70 kDa in Western blots of yeast protein extracts following meiotic induction.

Nucleolar evolution and coiled bodies during meiotic prophase in Olea europaea: differential localization of nucleic acids.

We studied the ultrastructural evolution of the nucleolus during meiotic prophase in olive microsporocytes. During prophase, nuclear bodies morphologically similar to coiled bodies were observed. The nucleic acid composition of these bodies was examined in microsporocytes using electron microscopic techniques with EDTA preferential ribonucleoprotein staining, anti-DNA immunolabeling, the in situ terminal deoxynucleotidyl transferase-immunogold technique, and in situ hybridization with 18S rRNA and U3 snoRNA digoxigenin-labeled probes. The ultrastructural appearance of the meiocyte nucleolus indicated a low level of activity from the early prophase stage: the granular component was practically absent and nucleoli were constituted almost exclusively by dense fibrillar component containing large fibrillar centers that lacked chromatin inclusions. However, the appearance of reactivation vacuoles in the nucleolus during zygotene and high levels of rRNA in the nucleoplasm during pachytene support the presence of a peak in rRNA synthesis. Our results also show that the nuclear bodies that appear during prophase I are ribonucleoproteinaceous in nature; neither DNA nor ribosomal RNA were detected. The presence of U3 snoRNA, as shown by in situ hybridization in nuclear bodies from plant material, is also evidence that these structures are coiled bodies. We suggest that coiled bodies are involved not only in pre- and post-splicing events but also in the storage, transport or recycling of rRNA maturation elements.