Adsorption Mechanism and Characteristic Temperatures of the Monolayer Adsorption of CO2 on Graphite: The Role of Graphene Dimensions.

Although simulation results for gaseous adsorption on a surface of infinite extent, modeled with periodic conditions at the boundaries of the simulation box, agree with experimental data at high temperatures, simulated isotherms at temperatures below the triple point temperature show unphysical substeps because of the compromise of interactions within the box and interactions between the box and its mirror image boxes. This has been alleviated with surfaces of finite dimensions (Loi, Q. K.; Colloids Surf., A 2021, 622, 126690 and Castaño Plaza, O.; Langmuir 2023, 39 (21), 7456-7468) to account for free boundaries at the adsorbate patch on the surface, and the critical parameter of this model substrate is the size of the finite surface. If it is too small, the adsorbate patch does not model the physical reality; however, if it is too large, the computation time is excessive, making the simulation impractical. In this study, we used carbon dioxide/graphite as the model system to explore the effects of finite dimensions on the description of experimental data of Terlain, A.; Larher, Y. Surf. Sci. 1983, 125 (1), 304-311, especially for temperatures below the bulk triple point temperature. With the appropriate choice of graphene size, we derived the 2D triple point and 2D critical point temperatures of the monolayer, and most importantly, for temperatures below the 2D critical point temperature, the adsorption mechanism for the formation of the monolayer is due to the interplay between the boundary growth process and the vacancy filling. The extent of this interplay is found to depend on the fractional coverage of the surface.

Effects of a Free Adsorbate Boundary on the Description of an Argon Adsorbed Film on Graphite below the Bulk Triple Point.

Monte Carlo simulations have been carried out to study argon adsorption on graphite at temperatures below the bulk triple point temperature, Ttr(bulk) = 83.8 K. Two models for graphite have been used to investigate the effects of an adsorbate patch with a free boundary on the layering temperatures, the two-dimensional (2D)-triple point and the 2D-critical point for the three adsorbate layers on the surface. The first model (S-model) has a planar surface of infinite extent in the two directions parallel to the surface, and the second is a finite (2D-patch model). Although simulations using both models describe the characteristic temperatures, only the 2D-patch model can represent the experimental isotherms accurately, and the condensation pressures at which first-order transitions occur, while simulations with the S-model yield many unphysical substeps that are not observed experimentally in the first layer adsorbate, which leads to a poor description of higher adsorbate layers. These results support the interpretation that boundary growth of an adsorbate patch is the mechanism for argon adsorption at temperatures below the bulk triple point temperature. Combining the results derived from this simulation study for temperatures below the bulk triple point temperature, with results reported in the literature for temperatures above Ttr(bulk) and experimental data, we have constructed a generic pattern for the adsorption isotherms of simple gases on graphite at temperatures ranging from well below the bulk triple point temperature up to the bulk critical temperature, a comprehensive description not widely recognized in the literature.

Identification of Candida glabrata Transcriptional Regulators That Govern Stress Resistance and Virulence.

The mechanisms by which Candida glabrata resists host defense peptides and caspofungin are incompletely understood. To identify transcriptional regulators that enable C. glabrata to withstand these classes of stressors, a library of 215 C. glabrata transcriptional regulatory deletion mutants was screened for susceptibility to both protamine and caspofungin. We identified eight mutants that had increased susceptibility to both host defense peptides and caspofungin. Of these mutants, six were deleted for genes that were predicted to specify proteins involved in histone modification. These genes were ADA2, GCN5, SPT8, HOS2, RPD3, and SPP1 Deletion of ADA2, GCN5, and RPD3 also increased susceptibility to mammalian host defense peptides. The Δada2 and Δgcn5 mutants had increased susceptibility to other stressors, such as H2O2 and SDS. In the Galleria mellonella model of disseminated infection, the Δada2 and Δgcn5 mutants had attenuated virulence, whereas in neutropenic mice, the virulence of the Δada2 and Δrpd3 mutants was decreased. Thus, histone modification plays a central role in enabling C. glabrata to survive host defense peptides and caspofungin, and Ada2 and Rpd3 are essential for the maximal virulence of this organism during disseminated infection.

Innate Immune Memory Contributes to Host Defense against Recurrent Skin and Skin Structure Infections Caused by Methicillin-Resistant Staphylococcus aureus.

Staphylococcus aureus is the leading cause of skin and skin structure infections (SSSI). The high frequency of recurring SSSI due to S. aureus, including methicillin-resistant S. aureus (MRSA) strains, despite high titers of specific antibodies and circulating T cells, implies that traditional adaptive immunity imparts incomplete protection. We hypothesized that innate immune memory contributes to the protective host defense against recurring MRSA infection. To test this hypothesis, SSSI was induced in wild-type and rag1-/- mice in the BALB/c and C57BL/6 backgrounds. Prior infection (priming) of wild-type and rag1-/- mice of either background afforded protection against repeat infection, as evidenced by reduced abscess severities and decreased CFU densities compared to those in naive controls. Interestingly, protection was greater on the previously infected flank than on the naive flank for wild-type and rag1-/- mice. For wild-type mice, protective efficacy corresponded to increased infiltration of neutrophils (polymorphonuclear leukocytes [PMN]), macrophages (MΦ), Langerin+ dendritic cells (LDC), and natural killer (NK) cells. Protection was associated with the induction of interleukin-17A (IL-17A), IL-22, and gamma interferon (IFN-γ) as well as the antimicrobial peptides CRAMP and mßD-3. Priming also protected rag1-/- mice against recurring SSSI, with increased MΦ and LDC infiltration and induction of IL-22, CRAMP, and mßD-3. These findings suggest that innate immune memory, mediated by specific cellular and molecular programs, likely contributes to the localized host defense in recurrent MRSA SSSI. These insights support the development of targeted immunotherapeutic strategies to address the challenge of MRSA infection.

An enhancer RNA recruits KMT2A to regulate transcription of Myb.

The Myb proto-oncogene encodes the transcription factor c-MYB, which is critical for hematopoiesis. Distant enhancers of Myb form a hub of interactions with the Myb promoter. We identified a long non-coding RNA (Myrlin) originating from the -81-kb murine Myb enhancer. Myrlin and Myb are coordinately regulated during erythroid differentiation. Myrlin TSS deletion using CRISPR-Cas9 reduced Myrlin and Myb expression and LDB1 complex occupancy at the Myb enhancers, compromising enhancer contacts and reducing RNA Pol II occupancy in the locus. In contrast, CRISPRi silencing of Myrlin left LDB1 and the Myb enhancer hub unperturbed, although Myrlin and Myb expressions were downregulated, decoupling transcription and chromatin looping. Myrlin interacts with the KMT2A/MLL1 complex. Myrlin CRISPRi compromised KMT2A occupancy in the Myb locus, decreasing CDK9 and RNA Pol II binding and resulting in Pol II pausing in the Myb first exon/intron. Thus, Myrlin directly participates in activating Myb transcription by recruiting KMT2A.

An enhancer RNA recruits MLL1 to regulate transcription of Myb.

The Myb proto-oncogene encodes the transcription factor c-MYB, which is critical for hematopoiesis. Distant enhancers of Myb form a hub of interactions with the Myb promoter. We identified a long non-coding RNA (Myrlin) originating from the -81 kb murine Myb enhancer. Myrlin and Myb are coordinately regulated during erythroid differentiation. Myrlin TSS deletion using CRISPR/Cas9 reduced Myrlin and Myb expression and LDB1 complex occupancy at the Myb enhancers, compromising enhancer contacts and reducing RNA Pol II occupancy in the locus. In contrast, CRISPRi silencing of Myrlin left LDB1 and the Myb enhancer hub unperturbed, although Myrlin and Myb expression were downregulated, decoupling transcription and chromatin looping. Myrlin interacts with the MLL1 complex. Myrlin CRISPRi compromised MLL1 occupancy in the Myb locus, decreasing CDK9 and RNA Pol II binding and resulting in Pol II pausing in the Myb first exon/intron. Thus, Myrlin directly participates in activating Myb transcription by recruiting MLL1.

Actividad citotóxica y antiproliferativa in vitro del extracto acuoso de Phyllanthus comosus

RESUMEN Introducción: Desde los inicios de la medicina antigua, las plantas han sido utilizadas como tratamiento en diversas enfermedades incluyendo las de naturaleza infecto-contagiosa y el cáncer. Son numerosos los informes sobre las propiedades biológicas del género Phyllanthus. Objetivo: Evaluar la actividad citotóxica y antiproliferativa de un extracto acuoso de Phyllanthus comosus en tres líneas celulares, dos de origen tumoral (SiHa y HeLa) y una no tumoral (Vero). Métodos: La actividad citotóxica se evaluó mediante el método del MTT y la capacidad antiproliferativa mediante el ensayo de detección de inhibición de colonias o clonogénico. Se tuvieron en cuenta valores como la concentración citotóxica media (CC50), índice selectivo y porcentaje de disminución de la proliferación celular. Resultados: En el ensayo de citotoxicidad se obtuvieron CC50 similares para ambas líneas tumorales; mientras que el valor para la línea Vero resultó tres veces menos tóxico, con valores de índice de selectividad mayor que tres. El ensayo clonogénico demostró inhibición de la proliferación en las líneas tumorales, mientras que en células Vero no se observó inhibición de la capacidad de formación de colonias. Conclusiones: El extracto de P. comosus es más citotóxico para las líneas tumorales SiHa y HeLa que para las células Vero, no tumorales. Además, la inhibición de la formación de clonos celulares en ambas líneas tumorales evidencia su acción antiproliferativa y selectiva, lo que argumenta su potencialidad antitumoral in vitro

ABSTRACT Introduction: Ever since the onset of ancient medical practice, plants have been used to treat a variety of conditions, including infectious communicable diseases and cancer. A large number of reports are available about the biological properties of the genus Phyllantus. Objective: Evaluate the cytotoxic and antiproliferative activity of an aqueous extract of Phyllanthus comosus on three cell lines: two of tumoral origin (SiHa and HeLa) and one of non-tumoral origin (Vero). Methods: Cytotoxic activity was evaluated by the MTT method, and antiproliferative capacity by colony inhibition detection or clonogenic assay. Mean cytotoxic concentration (CC50), selective index and cell proliferation reduction percentage were some of the values taken into account. Results: The cytotoxicity assay obtained similar CC50 values for both tumor cell lines, whereas the value for the Vero line was three times less toxic, with a selectivity index above three. The clonogenic assay revealed proliferation inhibition in the tumor cell lines, whereas no inhibition of colony forming capacity was observed in Vero cells. Conclusions: The P. comosus extract is more cytotoxic for tumoral cell lines SiHa and HeLa than for non-tumor Vero cells. Additionally, inhibition of the formation of cell clones in both tumor cell lines is evidence of its antiproliferative and selective action, substantiating its in vitro antitumor potential.

Evaluación preliminar de la actividad antiviral de Ageratina havanensis frente al virus dengue-2 utilizando ensayos inmunoenzimáticos

RESUMEN Introducción: Se presenta la evaluación preliminar de la actividad antiviral de extractos de Ageratina havanensis (etanólico de tallo, AH-T-EtOH; butanólico de hoja, AH-H-ButOH y acetato de etilo de hoja, AH-H-AcEtO) utilizando dos sistemas inmunoenzimáticos, un ELISA celular (ELISAc) y la técnica de inmunoperoxidasa. Objetivo: Evaluar la actividad antiviral de los extractos de Ageratina havanensis utilizando dos sistemas inmunoenzimáticos. Métodos: Se normalizó y empleó un ELISAc y la técnica de inmunoperoxidasa en evaluar de forma preliminar la actividad antiviral de tres extractos de Ageratina havanensis a diferentes concentraciones y tiempos de adición mediante la detección de la expresión de la proteína E del virus dengue. Resultados: El ELISAc logró como parámetros óptimos: línea celular Vero, antígeno viral en cultivo de células, tiempo de expresión de la proteína E de 96 h, compuesto fijador metanol-acetona y bloqueador leche descremada al 1 %. La menor expresión de la proteína E (mayor inhibición sobre la replicación viral), fue al adicionar el extracto AH-T-EtOH a su mayor concentración y 1 h antes de inocular el virus dengue-2 cepa A15 (VDEN-2 A15). El extracto AH-H-ButOH a concentraciones de 125 µg/mL y 250 µg/mL presentó una ligera limitación de expresión de E 1 h después de la inoculación viral. El extracto AH-H-AcEtO a las concentraciones empleadas, no mostró difererencia añadido antes y después de la inoculación. El ensayo de inmunoperoxidasa exhibió resultados análogos para los extractos. Conclusiones: La mayor inhibición de la replicación viral fue obtenida con el extracto AH-H-ButOH, a su mayor concentración y ambos tiempos de adición. Los ensayos inmunoenzimáticos aplicados son herramientas útiles para evaluar extractos de Ageratina havanensis con posible actividad antiviral.

ABSTRACT Introduction: A preliminary evaluation is presented of the antiviral activity of Ageratina havanensis extracts (stem ethanolic, AH-T-EtOH; leaf butanolic, AH-H-ButOH; and leaf ethyl acetate, AH-H-AcEtO) using two enzyme immunoassays, cellular ELISA (C-ELISA) and immunoperoxidase technique. Objective: Evaluate the antiviral activity of Ageratine havanensis extracts using two enzyme immunoassays. Methods: C-ELISA and immunoperoxidase technique were standardized for use in the preliminary evaluation of the antiviral activity of three Ageratina havanensis extracts at different concentrations and addition times through detection of the expression of the E protein of dengue virus. Results: C-ELISA achieved the following optimal parameters: Vero cell line, viral antigen in cell culture, protein E expression time 96 h, methanol-acetone fixation compound and 1% skimmed milk blocker. The smallest expression of protein E (greatest inhibition over viral replication) was achieved at addition of extract AH-T-EtOH at its highest concentration and 1 h before inoculating dengue-2 virus strain A15 (VDEN-2 A15). Extract AH-H-ButOH at concentrations of 125 µg/ml and 250 µg/ml presented a slight limitation in the expression of E 1 h after viral inoculation. Extract AH-H-AcEtO at the concentrations used did not show any difference when added before and after inoculation. The immunoperoxidase assay exhibited similar results for the extracts. Conclusions: The greatest inhibition of viral replication was obtained with extract AH-H-ButOH at its highest concentration and at both addition times. The enzyme immunoassays applied are useful tools to evaluate Ageratine havanensis extracts with potential antiviral activity.