Muscle-Type Nicotinic Receptor Blockade by Diethylamine, the Hydrophilic Moiety of Lidocaine

Lidocaine bears in its structure both an aromatic ring and a terminal amine, which can be protonated at physiological pH, linked by an amide group. Since lidocaine causes multiple inhibitory actions on nicotinic acetylcholine receptors (nAChRs), this work was aimed to determine the inhibitory effects of diethylamine (DEA), a small molecule resembling the hydrophilic moiety of lidocaine, on Torpedo marmorata nAChRs microtransplanted to Xenopus oocytes. Similarly to lidocaine, DEA reversibly blocked acetylcholine-elicited currents (IACh) in a dose-dependent manner (IC50 close to 70 μM), but unlike lidocaine, DEA did not affect IACh desensitization. IACh inhibition by DEA was more pronounced at negative potentials, suggesting an open-channel blockade of nAChRs, although roughly 30% inhibition persisted at positive potentials, indicating additional binding sites outside the pore. DEA block of nAChRs in the resting state (closed channel) was confirmed by the enhanced IACh inhibition when pre-applying DEA before its co-application with ACh, as compared with solely DEA and ACh co-application. Virtual docking assays provide a plausible explanation to the experimental observations in terms of the involvement of different sets of drug binding sites. So, at the nAChR transmembrane (TM) domain, DEA and lidocaine shared binding sites within the channel pore, giving support to their open-channel blockade; besides, lidocaine, but not DEA, interacted with residues at cavities among the M1, M2, M3, and M4 segments of each subunit and also at intersubunit crevices. At the extracellular (EC) domain, DEA and lidocaine binding sites were broadly distributed, which aids to explain the closed channel blockade observed. Interestingly, some DEA clusters were located at the α-γ interphase of the EC domain, in a cavity near the orthosteric binding site pocket; by contrast, lidocaine contacted with all α-subunit loops conforming the ACh binding site, both in α-γ and α-δ and interphases, likely because of its larger size. Together, these results indicate that DEA mimics some, but not all, inhibitory actions of lidocaine on nAChRs and that even this small polar molecule acts by different mechanisms on this receptor. The presented results contribute to a better understanding of the structural determinants of nAChR modulation.This work was supported by grants BFU2012-31359, BFU2012-39092-C02-01, BFU2011-25920, and CSD2008-00005 from the MINECO and PROMETEO/2014/11 from GVA (Spain)

Desfronde y tasa de Descomposición foliar en rebollar-pinar de repoblación con distinto grado de clara

El desfronde representa un factor clave en el funcionamiento de los ecosistemas forestales. Por un lado representa el mayor aporte de nutrientes en sistemas naturales y, por otro, su acumulación en el suelo constituye un banco de elementos esenciales que, por descomposición y mineralización, se integran en el suelo y en los ciclos biogeoquímicos. Este trabajo analiza el efecto de la clara en la producción de desfronde, la eficiencia en el uso del nitrógeno y en la tasa de descomposición de la hojarasca en una masa mixta de Pinus pinaster Ait. procedente de repoblación sobre una masa natural de Quercus pyrenaica Wild. El sitio experimental está situado en los Montes de Toledo y consta de tres tratamientos: control, clara moderada y clara fuerte con tres réplicas en un diseño de cuadrado latino. Los datos de desfronde proceden de recogida mensual en cestos y separación en fracciones para el cálculo de la materia seca. El nitrógeno se analizó en muestras compuestas cada tres meses. Para el estudio de la tasa de descomposición se utilizaron bolsas con mezcla de acículas y hojas, recolectándose y analizándose también cada tres meses. Los resultados muestran picos de desfronde en los meses de verano y en el otoño. La mayor producción de desfronde se observa en las parcelas testigo. La aplicación de las claras no supone grandes diferencias ni en el desfronde ni en la eficencia en el uso del nitrógeno. Por el contrario las claras ralentizan la tasa de descomposición de las hojas de rebollo

Mechanisms of Blockade of the Muscle-Type Nicotinic Receptor by Benzocaine, a Permanently Uncharged Local Anesthetic

Most local anesthetics (LAs) are amine compounds bearing one or several phenolic rings. Many of them are protonated at physiological pH, but benzocaine (Bzc) is permanently uncharged, which is relevant because the effects of LAs on nicotinic acetylcholine (ACh) receptors (nAChRs) depend on their presence as uncharged or protonated species. The aims of this study were to assess the effects of Bzc on nAChRs and to correlate them with its binding to putative interacting sites on this receptor. nAChRs from Torpedo electroplaques were microtransplanted to Xenopus oocytes and currents elicited by ACh (IAChs), either alone or together with Bzc, were recorded at different potentials. Co-application of ACh with increasing concentrations of Bzc showed that Bzc reversibly blocked nAChRs. IACh inhibition by Bzc was voltage-independent, but the IACh rebound elicited when rinsing Bzc suggests an open-channel blockade. Besides, ACh and Bzc co-application enhanced nAChR desensitization. When Bzc was just pre-applied it also inhibited IACh, by blocking closed (resting) nAChRs. This blockade slowed down the kinetics of both the IACh activation and the recovery from blockade. The electrophysiological results indicate that Bzc effects on nAChRs are similar to those of 2,6-dimethylaniline, an analogue of the hydrophobic moiety of lidocaine. Furthermore, docking assays on models of the nAChR revealed that Bzc and DMA binding sites on nAChRs overlap fairly well. These results demonstrate that Bzc inhibits nAChRs by multiple mechanisms and contribute to better understanding both the modulation of nAChRs and how LAs elicit some of their clinical side effects.This work was supported by grants BFU2012-31359, BFU2015-66612-P, SAF2015-66275-C2-1-R and SAF2017-82977-P (AEI/FEDER, UE) from MINECO, PROMETEO/2014/11 from Generalitat Valenciana (Spain) and GRE17-01 from Universidad de Alicante. R.C. held a predoctoral fellowship from Universidad de Alicante (FPUUA36) and M.N. a predoctoral industrial fellowship from Ministerio de Economía, Industria y Competitividad (DI-16-08303)

Muscle-Type Nicotinic Receptor Modulation by 2,6-Dimethylaniline, a Molecule Resembling the Hydrophobic Moiety of Lidocaine

To identify the molecular determinants responsible for lidocaine blockade of muscle-type nAChRs, we have studied the effects on this receptor of 2,6-dimethylaniline (DMA), which resembles lidocaine’s hydrophobic moiety. Torpedo marmorata nAChRs were microtransplanted to Xenopus oocytes and currents elicited by ACh (IACh), either alone or co-applied with DMA, were recorded. DMA reversibly blocked IACh and, similarly to lidocaine, exerted a closed-channel blockade, as evidenced by the enhancement of IACh blockade when DMA was pre-applied before its co-application with ACh, and hastened IACh decay. However, there were marked differences among its mechanisms of nAChR inhibition and those mediated by either the entire lidocaine molecule or diethylamine (DEA), a small amine resembling lidocaine’s hydrophilic moiety. Thereby, the IC50 for DMA, estimated from the dose-inhibition curve, was in the millimolar range, which is one order of magnitude higher than that for either DEA or lidocaine. Besides, nAChR blockade by DMA was voltage-independent in contrast to the increase of IACh inhibition at negative potentials caused by the more polar lidocaine or DEA molecules. Accordingly, virtual docking assays of DMA on nAChRs showed that this molecule binds predominantly at intersubunit crevices of the transmembrane-spanning domain, but also at the extracellular domain. Furthermore, DMA interacted with residues inside the channel pore, although only in the open-channel conformation. Interestingly, co-application of ACh with DEA and DMA, at their IC50s, had additive inhibitory effects on IACh and the extent of blockade was similar to that predicted by the allotopic model of interaction, suggesting that DEA and DMA bind to nAChRs at different loci. These results indicate that DMA mainly mimics the low potency and non-competitive actions of lidocaine on nAChRs, as opposed to the high potency and voltage-dependent block by lidocaine, which is emulated by the hydrophilic DEA. Furthermore, it is pointed out that the hydrophobic (DMA) and hydrophilic (DEA) moieties of the lidocaine molecule act differently on nAChRs and that their separate actions taken together account for most of the inhibitory effects of the whole lidocaine molecule on nAChRs.This work was supported by grants BFU2012-31359, SAF2015-66275-C2-1-R, BFU2011-25920, BFU2015-66612-P, and CSD2008-00005 from the MINECO and PROMETEO/2014/11 from GVA (Spain)

Los alimentos genéticamente modificados: Perspectivas biológicas, médicas, medioambientales y sociales

En las páginas siguientes se recoge el contenido que desarrollaron los ponentes del Seminario-Debate multidisciplinar, organizado por esta revista, sobre intervenciones los Alimentos Genéticamente Modificados, celebrado el pasado 16 de Marzo en la Universidad Autónoma de Madrid. El texto corresponde fundamentalmente al contenido íntegro de las intervenciones de tales ponentes, así como también al de algunos otros participantes que intervinieron en dicho debate. Los citados ponentes fueron (por orden de intervención): D. José Fernández Piqueras (Catedrático de Genética. UAM); D. José Miguel Martínez Zapater (Centro Nacional de Biotecnología); D. Antonio Jiménez Martínez (Centro de Biología Molecular); Dña. Elisa Barahona Nieto (Ministerio de Medio Ambiente); D. Emilio Muñoz Ruiz (Sociología de la Ciencia. CSIC); D. Rafael Urrialde de Andrés (Unión de Consumidores de España); D. Gregorio Alvaro Campos (Ecologistas en Acción); El Seminario-Debate fue moderado por D. Jesús Lizcano Alvarez (Director de esta revista, y Catedrático de la UAM)

Efecto de la gestión forestal en la cantidad de carbono del suelo mineral en una masa de Pinus pinaster Ait.

El conocimiento del impacto de la gestión forestal sobre los diversos compartimentos de carbono existentes en una masa forestal es prioritario para la sostenibilidad del aprovechamiento y gestión de los sistemas forestales. Con la aplicación de tratamientos selvícolas hay una serie de transformaciones en la masa como la reducción de biomasa en pie, la modificación de la cantidad de residuos o la disminución de la incorporación de hojarasca, la alteración del microclima del suelo por mayor presencia de luz y su influencia en las condiciones de humedad y temperatura. Este cambio en las condiciones modifica el contenido de carbono en el suelo. En este trabajo se ha estudiado la influencia que tiene la gestión forestal en las cantidades de carbono y nitrógeno presentes en los 30 primeros cm del suelo mineral más la hojarasca y humus de una masa de Pinus pinaster Ait., a partir de la comparación entre los cantidades de carbono bajo tres intensidades de claras. A partir de los resultados obtenidos no se han encontrado diferencias significativas entre los tratamientos, tanto en la cantidad de carbono y nitrógeno almacenado en la capa orgánica como en la capa mineral del suelo, por lo cual la realización de claras fuertes no modifica sustancialmente las cantidades de carbono acumuladas

Mechanisms Underlying the Strong Inhibition of Muscle-Type Nicotinic Receptors by Tetracaine

Nicotinic acetylcholine (ACh) receptors (nAChRs) are included among the targets of a variety of local anesthetics, although the molecular mechanisms of blockade are still poorly understood. Some local anesthetics, such as lidocaine, act on nAChRs by different means through their ability to present as both charged and uncharged molecules. Thus, we explored the mechanisms of nAChR blockade by tetracaine, which at physiological pH is almost exclusively present as a positively charged local anesthetic. The nAChRs from Torpedo electroplaques were transplanted to Xenopus oocytes and the currents elicited by ACh (IAChs), either alone or co-applied with tetracaine, were recorded. Tetracaine reversibly blocked IACh, with an IC50 (i.e., the concentration required to inhibit half the maximum IACh) in the submicromolar range. Notably, at very low concentrations (0.1 μM), tetracaine reduced IACh in a voltage-dependent manner, the more negative potentials produced greater inhibition, indicating open-channel blockade. When the tetracaine concentration was increased to 0.7 μM or above, voltage-independent inhibition was also observed, indicating closed-channel blockade. The IACh inhibition by pre-application of just 0.7 μM tetracaine before superfusion of ACh also corroborated the notion of tetracaine blockade of resting nAChRs. Furthermore, tetracaine markedly increased nAChR desensitization, mainly at concentrations equal or higher than 0.5 μM. Interestingly, tetracaine did not modify desensitization when its binding within the channel pore was prevented by holding the membrane at positive potentials. Tetracaine-nAChR interactions were assessed by virtual docking assays, using nAChR models in the closed and open states. These assays revealed that tetracaine binds at different sites of the nAChR located at the extracellular and transmembrane domains, in both open and closed conformations. Extracellular binding sites seem to be associated with closed-channel blockade; whereas two sites within the pore, with different affinities for tetracaine, contribute to open-channel blockade and the enhancement of desensitization, respectively. These results demonstrate a concentration-dependent heterogeneity of tetracaine actions on nAChRs, and contribute to a better understanding of the complex modulation of muscle-type nAChRs by local anesthetics. Furthermore, the combination of functional and virtual assays to decipher nAChR-tetracaine interactions has allowed us to tentatively assign the main nAChR residues involved in these modulating actions.This work was supported by grants BFU2012-31359, SAF2015-66275-C2-1-R, and SAF2017-82977-P (AEI/FEDER, UE) from MINECO and PROMETEO/2014/11 from Generalitat Valenciana (Spain). RC held a predoctoral fellowship from Universidad de Alicante (FPUUA36)

Updated database and trends of declared low- and no-calorie sweeteners from foods and beverages marketed in spain

Background: The past few years have witnessed an increase in the availability of food products containing one or more low- and no-calorie sweeteners (LNCS) in the Spanish market, mostly due to the new massive reformulation plan. However, these are not included in food composition tables or databases, and, therefore, assessment of their intake among the population is complex. This study aims to update a database including commercialized foods and beverages. Method: A systematic search of ingredients information from the different food and beverage categories was undertaken during 2019 by recording the availability and type of LNCS declared in the information of the product from labels and online shopping platforms of retailers from Spain to update a previous food composition database compiled in 2017. Results: A total of 1,238 products were identified. The major groups were sugar and sweets (24%), non-alcoholic beverages (21%), cereals and grains (19%), and milk and dairy products (14%) accounting for >70% of total products. The mainly declared LNCS were sorbitol (19.5%), sucralose (19.5%), and acesulfame K (19.2%). Conclusion: There is a wide variety of products that include LNCS as a main ingredient with higher availability than when compared with the results of database of 2017, consequently, it might be expected that LNCS are commonly consumed at present in the Spanish diet

Evaluation in a Cytokine Storm Model in Vivo of the Safety and Efficacy of Intravenous Administration of PRS CK STORM (Standardized Conditioned Medium Obtained by Coculture of Monocytes and Mesenchymal Stromal Cells)

Our research group has been developing a series of biological drugs produced by cocul-ture techniques with M2-polarized macrophages with different primary tissue cells and/or mesen-chymal stromal cells (MSC), generally from fat, to produce anti-inflammatory and anti-fibrotic ef-fects, avoiding the overexpression of pro-inflammatory cytokines by the innate immune system at a given time. One of these products is the drug PRS CK STORM, a medium conditioned by allogenic M2-polarized macrophages, from coculture, with those macrophages M2 with MSC from fat, whose composition, in vitro safety, and efficacy we studied. In the present work, we publish the results obtained in terms of safety (pharmacodynamics and pharmacokinetics) and efficacy of the intravenous application of this biological drug in a murine model of cytokine storm associated with severe infectious processes, including those associated with COVID-19. The results demonstrate the safety and high efficacy of PRS CK STORM as an intravenous drug to prevent and treat the cytokine storm associated with infectious processes, including COVID-19

Cytokine profile and anti-inflammatory activity of a standardized conditioned medium obtained by coculture of monocytes and mesenchymal stromal cells (PRS CK STORM)

Intercellular communication between monocytes/macrophages and cells involved in tissue regeneration, such as mesenchymal stromal cells (MSCs) and primary tissue cells, is essential for tissue regeneration and recovery of homeostasis. Typically, in the final phase of the inflammation-resolving process, this intercellular communication drives an anti-inflammatory immunomodulatory response. To obtain a safe and effective treatment to counteract the cytokine storm associated with a disproportionate immune response to severe infections, including that associated with COVID-19, by means of naturally balanced immunomodulation, our group has standardized the production under GMP-like conditions of a secretome by coculture of macrophages and MSCs. To characterize this proteome, we determined the expression of molecules related to cellular immune response and tissue regeneration, as well as its possible toxicity and anti-inflammatory potency. The results show a specific molecular pattern of interaction between the two cell types studied, with an anti-inflammatory and regenerative profile. In addition, the secretome is not toxic by itself on human PBMC or on THP-1 monocytes and prevents lipopolysaccharide (LPS)-induced growth effects on those cell types. Finally, PRS CK STORM prevents LPS-induced TNF-A and IL-1B secretion from PBMC and from THP-1 cells at the same level as hydrocortisone, demonstrating its anti-inflammatory potency. © 2022 by the authors. Licensee MDPI, Basel, Switzerland