98 research outputs found
Solution casting of cellulose acetate films: influence of surface substrate and humidity on wettability, morphology and optical properties
Variations on the processing conditions of conventional methods for polymeric film preparation may allow tuning certain properties. In this work, different casting surfaces and humidity are presented as variables to consider for cellulose acetate (CA) film preparation using conventional solution casting method. Specifically, borosilicate glass, soda-lime glass and Teflon (PTFE) dishes have been used for casting and their influence on various properties on CA films assessed. The surfaces of glass dishes are smooth, while PTFE surface has a pattern constituted by concentric channels of micro dimensions (as seen by optical microscope), which is adopted by cast films upon drying. The resulting patterned films are translucent while films produced using smooth surfaces are transparent. The effect of the environment humidity (35%, 55% and 75% RH) in the properties of the CA films during the evaporation of solvent from solution has been evaluated. Higher humidity produces smoother surfaces and increased crystallinity as shown by XRD and DSC; however, the wettability of the films does not seem to be influenced by this variable. Due to the specific morphology of the patterned films, changes in material opacity upon wetting are detected, from translucent to transparent, while the removal of water from the surface restores the translucency. This micropatterning effect that causes different visual appearance of the material can find use as a humidity sensor in food packaging applications.Open Access funding provided thanks to the CRUE-CSIC agreement with Springer Nature. This work was financially supported by CONEX-Plus program of Universidad Carlos III de Madrid (UC3M) and the European Commission through the Marie-Sklodowska Curie COFUND Action (Grant Agreement No 801538). Authors also appreciate the financial support received from AEI (Ministerio de Ciencia e Innovación of Spain, PID2020-112713RB-C22 and -C21); the Universidad Carlos III de Madrid, Fondos de Investigación of Fco. Javier González Benito (2012/00130/004) and the strategic Action in Multifunctional Nanocomposite Materials (2011/00287/003)
Escuela de investigadores
La Escuela de Investigadores se plantea como una experiencia de innovación con el propósito de
facilitar y mejorar la formación investigadora del alumnado en la realización del Trabajo Fin de
Máster (TFM) del Máster de Dirección, Evaluación y Calidad de las Instituciones de Formación de
la Universidad de Sevilla en el Itinerario de Investigación. Esta escuela se presenta como una
fórmula colaborativa de tutorización en la dirección del trabajo de investigación. En ella se prima la
creación de un grupo, que es la base que sustenta todo el proceso formativo. Se pretende con ello
desarrollar competencias de distinta naturaleza a través de una metodología comunicativa como
base, tanto para el autoconocimiento, como para la creación de espacios de desarrollo madurativo
de índole intelectual y personal. La evaluación de esta innovación se lleva a cabo de forma
cualitativa. Los resultados indican el potencial educativo de esta experiencia desde la perspectiva de
los estudiantes.Researchers School is proposed as an innovation experience in order to facilitate and enhance
research training of students in the realization of Master's Thesis (TFM) Itinerary of Research at the
Masters in Management, Evaluation and Institutional Quality Training. This school is presented as a
collaborative formula tutoring in the direction of the research. It's raw creation of a group, which is
the foundation that underpins the whole training process. The aim is to develop differents skills,
through communicative methodology as the basis both for the self and for the creation of
opportunities for both intellectual development and maturation of this assessment personal.
Evaluation of this innovation is carried out qualitatively. The results show the educational potential
of this innovation, showing the aspects that favor students in their assessment
Modulation of KV4.3-KChIP2 Channels by IQM-266: Role of DPP6 and KCNE2
The transient outward potassium current (Itof) is generated by the activation of KV4 channels
assembled with KChIP2 and other accessory subunits (DPP6 and KCNE2). To test the hypothesis
that these subunits modify the channel pharmacology, we analyzed the electrophysiological effects
of (3-(2-(3-phenoxyphenyl)acetamido)-2-naphthoic acid) (IQM-266), a new KChIP2 ligand, on the
currents generated by KV4.3/KChIP2, KV4.3/KChIP2/DPP6 and KV4.3/KChIP2/KCNE2 channels.
CHO cells were transiently transfected with cDNAs codifying for different proteins (KV4.3/KChIP2,
KV4.3/KChIP2/DPP6 or KV4.3/KChIP2/KCNE2), and the potassium currents were recorded using
the whole-cell patch-clamp technique. IQM-266 decreased the maximum peak of KV4.3/KChIP2,
KV4.3/KChIP2/DPP6 and KV4.3/KChIP2/KCNE2 currents, slowing their time course of inactivation
in a concentration-, voltage-, time- and use-dependent manner. IQM-266 produced an increase in
the charge in KV4.3/KChIP2 channels that was intensified when DPP6 was present and abolished
in the presence of KCNE2. IQM-266 induced an activation unblocking effect during the application
of trains of pulses to cells expressing KV4.3/KChIP2 and KV4.3/KChIP2/KCNE2, but not in
KV4.3/KChIP2/DPP6 channels. Overall, all these results are consistent with a preferential IQM-266
binding to an active closed state of Kv4.3/KChIP2 and Kv4.3/KChIP2/KCNE2 channels, whereas in
the presence of DPP6, IQM-266 binds preferentially to an inactivated state. In conclusion, DPP6 and
KCNE2 modify the pharmacological response of KV4.3/KChIP2 channels to IQM-266.MCIN/AEI SAF2016-75021-R
RTI2018-097189-B-C22
BIO2017-89523-R
PID2019-104366RB-C21
PID2019-104366RB-C22
PID2020-114256RB-I00
PID2020-119805RB-I00
BES-2017-080184
BES-2010-036573
PRE2018-083280
RYC2018-023837-IERDF A way of making Europe SAF2016-75021-R
RTI2018-097189-B-C22
BIO2017-89523-RFEDER/Junta de Andalucia-Consejeria de Transformacion Economica, Industria, Conocimiento A-FQM-386-UGR20Instituto de Salud Carlos III CIBERCV CB/11/00222Consejo Superior de Investigaciones Cientificas PIE202180E073
PIE201820E104
2019AEP148ESF Investing in your future BES-2017-080184
BES-2010-036573
PRE2018-083280
RYC2018-023837-IInstituto de Salud Carlos IIISpanish GovernmentEuropean Commission FPU17/0273
Deletion patterns, genetic variability and protein structure of pfhrp2 and pfhrp3: implications for malaria rapid diagnostic test in Amhara region, Ethiopia
Background: Although rapid diagnostic tests (RDTs) play a key role in malaria-control strategies, their efficacy has been threatened by deletion and genetic variability of the genes pfhrp2/3. This study aims to characterize the deletion, genetic patterns and diversity of these genes and their implication for malaria RDT effectiveness, as well as their genetic evolution in the Amhara region of Ethiopia. Methods: The study included 354 isolates from symptomatic patients from the Amhara region of Ethiopia who tested positive by microscopy. Exon 1?2 and exon 2 of genes pfhrp2 and -3 were amplified, and exon 2 was sequenced to analyse the genetic diversity, phylogenetic relationship and epitope availability. Results: The deletion frequency in exon 1?2 and exon 2 was 22 and 4.6% for pfhrp2, and 68 and 18% for pfhrp3, respectively. Double deletion frequency for pfhrp2 and pfhrp3 was 1.4%. High genetic diversity, lack of clustering by phylogenetic analysis and evidence of positive selection suggested a diversifying selection for both genes. The amino-acid sequences, classified into different haplotypes, varied widely in terms of frequency of repeats, with novel amino-acid changes. Aminoacidic repetition type 2 and type 7 were the most frequent in all the sequences. The most frequent epitopes among protein sequences were those recognized by MAbs 3A4 and C1-13. Conclusion: Deletions and high amino acidic variation in pfhrp2 and pfhrp3 suggest their possible impact on RDT use in the Amhara region, and the high genetic diversity of these genes could be associated with a diversifying selection in Ethiopia. Surveillance of these genes is, therefore, essential to ensure the effectiveness of public health interventions in this region.Instituto de Salud Carlos II
Differences in Tau Seeding in Newborn and Adult Wild-Type Mice
Alzheimer’s disease (AD) and other tauopathies are common neurodegenerative diseases in older adults; in contrast, abnormal tau deposition in neurons and glial cells occurs only exceptionally in children. Sarkosyl-insoluble fractions from sporadic AD (sAD) containing paired helical filaments (PHFs) were inoculated unilaterally into the thalamus in newborn and three-month-old wild-type C57BL/6 mice, which were killed at different intervals from 24 h to six months after inoculation. Tau-positive cells were scanty and practically disappeared at three months in mice inoculated at the age of a newborn. In contrast, large numbers of tau-positive cells, including neurons and oligodendrocytes, were found in the thalamus of mice inoculated at three months and killed at the ages of six months and nine months. Mice inoculated at the age of newborn and re-inoculated at the age of three months showed similar numbers and distribution of positive cells in the thalamus at six months and nine months. This study shows that (a) differences in tau seeding between newborn and young adults may be related to the ratios between 3Rtau and 4Rtau, and the shift to 4Rtau predominance in adults, together with the immaturity of connections in newborn mice, and (b) intracerebral inoculation of sAD PHFs in newborn mice does not protect from tau seeding following intracerebral inoculation of sAD PHFs in young/adult mice
New approaches for the identification of KChIP2 ligands to study the KV4.3 channelosome in atrial fibrillati
Resumen del trabajo presentado en el VIII Congreso Red Española de Canales iónico, celebrado en Alicante (España) del 24 al 27 de mayo de 2022.Ion channels are macromolecular complexes present in the plasma membrane and in intracellular organelles of the cells, where they play important functions. The dysfunction of these channels results in several disorders named channelopathies, which represent a challenge for study and treatment.[1] We are focused on voltage-gated potassium channels, specifically on KV4.3. Kv4.3 is expressed in smooth muscle, heart and brain. Within the heart, Kv4.3 channels generate the transient outward potassium current (ITO). However, ITO characteristics are only observed when Kv4.3 assemble with accessory subunits as KChIP2 and DPP6. KV4.3 channelosome play a key role in atrial fibrillation (AF),the most common cardiac arrhythmia, with an estimated prevalence in the general population of 1.5–2%. However, current antiarrhythmic drugs for AF prevention have limited efficacy and considerable potential for adverse effects.[2] KChIP2 (Potassium Channel Interacting Protein 2) belongs to the calcium binding protein superfamily. It is the KChIP member predominantly expressed in heart and a key regulator of cardiac action potential duration. The identification of novel KChIP2 ligands could be useful to understand the role of KV4.3 channelosome in AF and it could help to discover new treatments for AF. [3] In this regard, structure-based virtual screening could be an important tool to accelerate the identification of novel KChIP2 ligands. In this communication, we will describe a multidisciplinary approach that, starting with a structurebased virtual screening, followed by an iterative process of synthesis/biological evaluation/docking studies, has led to the identification of new KChIP2 ligands.PID2019-104366RB-C21, PID2019-104366RB-C22, PID2020-114256RB-I00 and PID2020-119805RB-I00 grants funded by MCIN/AEI/10.13039/501100011033; and PIE202180E073 and 2019AEP148 funded by CSIC. C.V.B. holds PRE2020-093542 FPI grant funded by MCIN/AEI/10.13039/501100011033. PGS was recipient of an FPU grant (FPU17/02731). AB-B holds BES-2017-080184 FPI grant and A.P-L.holds RYC2018-023837-I grant both funded by MCIN/ AEI/ 10.13039/501100011033 and by “ESF Investing in your future
New approaches for the identification of KChIP2 ligands to study the KV4.3 channelosome in atrial fibrillati
Resumen del trabajo presentado en el VIII Congreso Red Española de Canales iónico, celebrado en Alicante (España) del 24 al 27 de mayo de 2022.Ion channels are macromolecular complexes present in the plasma membrane and in intracellular organelles of the cells, where they play important functions. The dysfunction of these channels results in several disorders named channelopathies, which represent a challenge for study and treatment.[1] We are focused on voltage-gated potassium channels, specifically on KV4.3. Kv4.3 is expressed in smooth muscle, heart and brain. Within the heart, Kv4.3 channels generate the transient outward potassium current (ITO). However, ITO characteristics are only observed when Kv4.3 assemble with accessory subunits as KChIP2 and DPP6. KV4.3 channelosome play a key role in atrial fibrillation (AF),the most common cardiac arrhythmia, with an estimated prevalence in the general population of 1.5–2%. However, current antiarrhythmic drugs for AF prevention have limited efficacy and considerable potential for adverse effects.[2] KChIP2 (Potassium Channel Interacting Protein 2) belongs to the calcium binding protein superfamily. It is the KChIP member predominantly expressed in heart and a key regulator of cardiac action potential duration. The identification of novel KChIP2 ligands could be useful to understand the role of KV4.3 channelosome in AF and it could help to discover new treatments for AF. [3] In this regard, structure-based virtual screening could be an important tool to accelerate the identification of novel KChIP2 ligands. In this communication, we will describe a multidisciplinary approach that, starting with a structurebased virtual screening, followed by an iterative process of synthesis/biological evaluation/docking studies, has led to the identification of new KChIP2 ligands.PID2019-104366RB-C21, PID2019-104366RB-C22, PID2020-114256RB-I00 and PID2020-119805RB-I00 grants funded by MCIN/AEI/10.13039/501100011033; and PIE202180E073 and 2019AEP148 funded by CSIC. C.V.B. holds PRE2020-093542 FPI grant funded by MCIN/AEI/10.13039/501100011033. PGS was recipient of an FPU grant (FPU17/02731). AB-B holds BES-2017-080184 FPI grant and A.P-L.holds RYC2018-023837-I grant both funded by MCIN/ AEI/ 10.13039/501100011033 and by “ESF Investing in your future
Association between Different Animal Protein Sources and Liver Status in Obese Subjects with Non-Alcoholic Fatty Liver Disease: Fatty Liver in Obesity (FLiO) Study
Non-alcoholic fatty liver disease (NAFLD) is considered the hepatic manifestation of metabolic syndrome. Obesity and unhealthy dietary habits are described as risk factors for NAFLD. The aim of this study was to investigate the association between the consumption of different animal protein sources and hepatic status in NAFLD adults. A total of 112 overweight/obese participants with NAFLD from Fatty Liver in Obesity (FLiO) study were evaluated at baseline. Diet, body composition, and biochemical variables were evaluated. Hepatic status was also assessed by Magnetic Resonance Imaging, ultrasonography, and elastography. Red meat consumption showed a positive relationship with liver iron content (r = 0.224; p = 0.021) and ferritin concentration (r = 0.196; p = 0.037). Processed meat consumption exhibited a positive association with liver iron content (r = 0.308; p = 0.001), which was also found in the quantile regression (β = 0.079; p = 0.028). Fish consumption was related with lower concentration of ferritin (r = -0.200; p = 0.034). This association was further evidenced in the regression model (β = -0.720; p = 0.033). These findings suggest that the consumption of different animal protein sources differentially impact on liver status in obese subjects with NAFLD, showing fish consumption as a healthier alternative for towards NAFLD features
Interplay of glycemic index, glycemic load, and dietary antioxidant capacity with insulin resistance in subjects with a cardiometabolic risk profile
Background: Dietary total antioxidant capacity (TAC), glycemic index (GI), and glycemic
load (GL) are accepted indicators of diet quality, which have an effect on diet–disease relationships.
The aim of this study was to evaluate potential associations of dietary TAC, GI, and GL with variables
related to nutritive status and insulin resistance (IR) risk in cardiometabolic subjects. Methods: A total
of 112 overweight or obese adults (age: 50.8 ± 9 years old) were included in the trial. Dietary intake
was assessed by a validated 137-item food frequency questionnaire (FFQ), which was also used
to calculate the dietary TAC, GI, and GL. Anthropometrics, blood pressure, body composition by
dual-energy X-ray absorptiometry (DXA), glycemic and lipid profiles, C-reactive protein (CRP),
as well as fatty liver quantification by magnetic resonance imaging (MRI) were assessed. Results:
Subjects with higher values of TAC had significantly lower circulating insulin concentration and
homeostatic model assessment of insulin resistance (HOMA-IR). Participants with higher values of
HOMA-IR showed significantly higher GI and GL. Correlation analyses showed relevant inverse
associations of GI and GL with TAC. A regression model evidenced a relationship of HOMA-IR
with TAC, GI, and GL. Conclusion: This data reinforces the concept that dietary TAC, GI, and GL
are potential markers of diet quality, which have an impact on the susceptible population with a
cardiometabolic risk profile
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