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1.
Nature ; 614(7946): 88-94, 2023 02.
Article in English | MEDLINE | ID: mdl-36653458

ABSTRACT

Two-dimensional (2D) materials and their heterostructures show a promising path for next-generation electronics1-3. Nevertheless, 2D-based electronics have not been commercialized, owing mainly to three critical challenges: i) precise kinetic control of layer-by-layer 2D material growth, ii) maintaining a single domain during the growth, and iii) wafer-scale controllability of layer numbers and crystallinity. Here we introduce a deterministic, confined-growth technique that can tackle these three issues simultaneously, thus obtaining wafer-scale single-domain 2D monolayer arrays and their heterostructures on arbitrary substrates. We geometrically confine the growth of the first set of nuclei by defining a selective growth area via patterning SiO2 masks on two-inch substrates. Owing to substantial reduction of the growth duration at the micrometre-scale SiO2 trenches, we obtain wafer-scale single-domain monolayer WSe2 arrays on the arbitrary substrates by filling the trenches via short growth of the first set of nuclei, before the second set of nuclei is introduced, thus without requiring epitaxial seeding. Further growth of transition metal dichalcogenides with the same principle yields the formation of single-domain MoS2/WSe2 heterostructures. Our achievement will lay a strong foundation for 2D materials to fit into industrial settings.

2.
Proc Natl Acad Sci U S A ; 121(27): e2314702121, 2024 07 02.
Article in English | MEDLINE | ID: mdl-38916997

ABSTRACT

Enlargement of the cerebrospinal fluid (CSF)-filled brain ventricles (cerebral ventriculomegaly), the cardinal feature of congenital hydrocephalus (CH), is increasingly recognized among patients with autism spectrum disorders (ASD). KATNAL2, a member of Katanin family microtubule-severing ATPases, is a known ASD risk gene, but its roles in human brain development remain unclear. Here, we show that nonsense truncation of Katnal2 (Katnal2Δ17) in mice results in classic ciliopathy phenotypes, including impaired spermatogenesis and cerebral ventriculomegaly. In both humans and mice, KATNAL2 is highly expressed in ciliated radial glia of the fetal ventricular-subventricular zone as well as in their postnatal ependymal and neuronal progeny. The ventriculomegaly observed in Katnal2Δ17 mice is associated with disrupted primary cilia and ependymal planar cell polarity that results in impaired cilia-generated CSF flow. Further, prefrontal pyramidal neurons in ventriculomegalic Katnal2Δ17 mice exhibit decreased excitatory drive and reduced high-frequency firing. Consistent with these findings in mice, we identified rare, damaging heterozygous germline variants in KATNAL2 in five unrelated patients with neurosurgically treated CH and comorbid ASD or other neurodevelopmental disorders. Mice engineered with the orthologous ASD-associated KATNAL2 F244L missense variant recapitulated the ventriculomegaly found in human patients. Together, these data suggest KATNAL2 pathogenic variants alter intraventricular CSF homeostasis and parenchymal neuronal connectivity by disrupting microtubule dynamics in fetal radial glia and their postnatal ependymal and neuronal descendants. The results identify a molecular mechanism underlying the development of ventriculomegaly in a genetic subset of patients with ASD and may explain persistence of neurodevelopmental phenotypes in some patients with CH despite neurosurgical CSF shunting.


Subject(s)
Cilia , Hydrocephalus , Microtubules , Animals , Female , Humans , Male , Mice , ATPases Associated with Diverse Cellular Activities/genetics , ATPases Associated with Diverse Cellular Activities/metabolism , Autism Spectrum Disorder/genetics , Autism Spectrum Disorder/pathology , Autism Spectrum Disorder/metabolism , Cilia/metabolism , Cilia/pathology , Ependyma/metabolism , Ependyma/pathology , Hydrocephalus/genetics , Hydrocephalus/pathology , Hydrocephalus/metabolism , Katanin/metabolism , Katanin/genetics , Microtubules/metabolism , Neurons/metabolism , Pyramidal Cells/metabolism , Pyramidal Cells/pathology
3.
PLoS Pathog ; 19(2): e1011047, 2023 02.
Article in English | MEDLINE | ID: mdl-36730465

ABSTRACT

The obligate intracellular Chlamydiaceae do not need to resist osmotic challenges and thus lost their cell wall in the course of evolution. Nevertheless, these pathogens maintain a rudimentary peptidoglycan machinery for cell division. They build a transient peptidoglycan ring, which is remodeled during the process of cell division and degraded afterwards. Uncontrolled degradation of peptidoglycan poses risks to the chlamydial cell, as essential building blocks might get lost or trigger host immune response upon release into the host cell. Here, we provide evidence that a primordial enzyme class prevents energy intensive de novo synthesis and uncontrolled release of immunogenic peptidoglycan subunits in Chlamydia trachomatis. Our data indicate that the homolog of a Bacillus NlpC/P60 protein is widely conserved among Chlamydiales. We show that the enzyme is tailored to hydrolyze peptidoglycan-derived peptides, does not interfere with peptidoglycan precursor biosynthesis, and is targeted by cysteine protease inhibitors in vitro and in cell culture. The peptidase plays a key role in the underexplored process of chlamydial peptidoglycan recycling. Our study suggests that chlamydiae orchestrate a closed-loop system of peptidoglycan ring biosynthesis, remodeling, and recycling to support cell division and maintain long-term residence inside the host. Operating at the intersection of energy recovery, cell division and immune evasion, the peptidoglycan recycling NlpC/P60 peptidase could be a promising target for the development of drugs that combine features of classical antibiotics and anti-virulence drugs.


Subject(s)
Chlamydia trachomatis , Peptidoglycan , Chlamydia trachomatis/metabolism , Peptidoglycan/metabolism , Immune Evasion , Bacterial Proteins/metabolism , Cell Division , Cell Wall/metabolism , Peptide Hydrolases/metabolism
4.
Proc Natl Acad Sci U S A ; 119(18): e2201646119, 2022 05 03.
Article in English | MEDLINE | ID: mdl-35507892

ABSTRACT

Multiple membrane organelles require cholesterol for proper function within cells. The Niemann-Pick type C (NPC) proteins export cholesterol from endosomes to other membrane compartments, including the endoplasmic reticulum (ER), plasma membrane (PM), trans-Golgi network (TGN), and mitochondria, to meet their cholesterol requirements. Defects in NPC cause malfunctions in multiple membrane organelles and lead to an incurable neurological disorder. Acyl-coenzyme A:cholesterol acyltransferase 1 (ACAT1), a resident enzyme in the ER, converts cholesterol to cholesteryl esters for storage. In mutant NPC cells, cholesterol storage still occurs in an NPC-independent manner. Here we report the interesting finding that in a mutant Npc1 mouse (Npc1nmf), Acat1 gene (Soat1) knockout delayed the onset of weight loss, motor impairment, and Purkinje neuron death. It also improved hepatosplenic pathology and prolonged lifespan by 34%. In mutant NPC1 fibroblasts, ACAT1 blockade (A1B) increased cholesterol content associated with TGN-rich membranes and mitochondria, while decreased cholesterol content associated with late endosomes. A1B also restored proper localization of syntaxin 6 and golgin 97 (key proteins in membrane trafficking at TGN) and improved the levels of cathepsin D (a key protease in lysosome and requires Golgi/endosome transport for maturation) and ABCA1 (a key protein controlling cholesterol release at PM). This work supports the hypothesis that diverting cholesterol from storage can benefit multiple diseases that involve cholesterol deficiencies in cell membranes.


Subject(s)
Longevity , Niemann-Pick Disease, Type C , Acetyl-CoA C-Acetyltransferase , Alzheimer Disease , Animals , Cholesterol , Cholesterol Esters , Disease Models, Animal , Endosomes/genetics , Mice , Niemann-Pick C1 Protein , Niemann-Pick Disease, Type C/genetics , Sterol O-Acyltransferase
5.
Semin Cancer Biol ; 93: 123-128, 2023 08.
Article in English | MEDLINE | ID: mdl-37236329

ABSTRACT

Small cell lung cancer (SCLC) is a recalcitrant cancer with an urgent need for novel therapeutics, preclinical models, and elucidation of the molecular pathways responsible for its rapid resistance. Recently, there have been many significant advancements in our knowledge of SCLC that led to the development of novel treatments. This review will go over the recent attempts to provide new molecular subcategorization of SCLC, recent breakthroughs in various systemic treatments including immunotherapy, targeted therapy, cellular therapy, as well as advancements in radiation therapy.


Subject(s)
Lung Neoplasms , Small Cell Lung Carcinoma , Humans , Small Cell Lung Carcinoma/therapy , Small Cell Lung Carcinoma/drug therapy , Lung Neoplasms/therapy , Lung Neoplasms/drug therapy , Immunotherapy
6.
J Am Chem Soc ; 146(28): 18927-18937, 2024 Jul 17.
Article in English | MEDLINE | ID: mdl-38968420

ABSTRACT

Hydrogen sulfide (H2S) is an endogenously produced gasotransmitter involved in many physiological processes that are integral to proper cellular functioning. Due to its profound anti-inflammatory and antioxidant properties, H2S plays important roles in preventing inflammatory skin disorders and improving wound healing. Transdermal H2S delivery is a therapeutically viable option for the management of such disorders. However, current small-molecule H2S donors are not optimally suited for transdermal delivery and typically generate electrophilic byproducts that may lead to undesired toxicity. Here, we demonstrate that H2S release from metal-organic frameworks (MOFs) bearing coordinatively unsaturated metal centers is a promising alternative for controlled transdermal delivery of H2S. Gas sorption measurements and powder X-ray diffraction (PXRD) studies of 11 MOFs support that the Mg-based framework Mg2(dobdc) (dobdc4- = 2,5-dioxidobenzene-1,4-dicarboxylate) is uniquely well-suited for transdermal H2S delivery due to its strong yet reversible binding of H2S, high capacity (14.7 mmol/g at 1 bar and 25 °C), and lack of toxicity. In addition, Rietveld refinement of synchrotron PXRD data from H2S-dosed Mg2(dobdc) supports that the high H2S capacity of this framework arises due to the presence of three distinct binding sites. Last, we demonstrate that transdermal delivery of H2S from Mg2(dobdc) is sustained over a 24 h period through porcine skin. Not only is this significantly longer than sodium sulfide but this represents the first example of controlled transdermal delivery of pure H2S gas. Overall, H2S-loaded Mg2(dobdc) is an easily accessible, solid-state source of H2S, enabling safe storage and transdermal delivery of this therapeutically relevant gas.


Subject(s)
Administration, Cutaneous , Hydrogen Sulfide , Metal-Organic Frameworks , Hydrogen Sulfide/chemistry , Hydrogen Sulfide/administration & dosage , Metal-Organic Frameworks/chemistry , Animals , Swine , Skin/metabolism
7.
J Am Chem Soc ; 146(21): 14724-14733, 2024 May 29.
Article in English | MEDLINE | ID: mdl-38757532

ABSTRACT

Despite decades of research, the dominant charge generation mechanism in organic bulk heterojunction (BHJ) devices is not completely understood. While the local dielectric environments of the photoexcited molecules are important for exciton dissociation, conventional characterizations cannot separately measure the polarizability of electron-donor and electron-acceptor, respectively, in their blends, making it difficult to decipher the spectrally different charge generation efficiencies in organic BHJ devices. Here, by spectrally resolved electroabsorption spectroscopy, we report extraction of the excited state polarizability for individual donors and acceptors in a series of organic blend films. Regardless of the donor and acceptor, we discovered that larger exciton polarizability is linked to larger π-π coherence length and faster charge transfer across the heterojunction, which fundamentally explains the origin of the higher charge generation efficiency near 100% in the BHJ photodiodes. We also show that the molecular packing of the donor and acceptor influence each other, resulting in a synergetic enhancement in the exciton polarizability.

8.
J Am Chem Soc ; 146(9): 6072-6083, 2024 Mar 06.
Article in English | MEDLINE | ID: mdl-38400985

ABSTRACT

Diamine-appended Mg2(dobpdc) (dobpdc4- = 4,4'-dioxidobiphenyl-3,3'-dicarboxylate) metal-organic frameworks are promising candidates for carbon capture that exhibit exceptional selectivities and high capacities for CO2. To date, CO2 uptake in these materials has been shown to occur predominantly via a chemisorption mechanism involving CO2 insertion at the amine-appended metal sites, a mechanism that limits the capacity of the material to ∼1 equiv of CO2 per diamine. Herein, we report a new framework, pip2-Mg2(dobpdc) (pip2 = 1-(2-aminoethyl)piperidine), that exhibits two-step CO2 uptake and achieves an unusually high CO2 capacity approaching 1.5 CO2 per diamine at saturation. Analysis of variable-pressure CO2 uptake in the material using solid-state nuclear magnetic resonance (NMR) spectroscopy and in situ diffuse reflectance infrared Fourier transform spectroscopy (DRIFTS) reveals that pip2-Mg2(dobpdc) captures CO2 via an unprecedented mechanism involving the initial insertion of CO2 to form ammonium carbamate chains at half of the sites in the material, followed by tandem cooperative chemisorption and physisorption. Powder X-ray diffraction analysis, supported by van der Waals-corrected density functional theory, reveals that physisorbed CO2 occupies a pocket formed by adjacent ammonium carbamate chains and the linker. Based on breakthrough and extended cycling experiments, pip2-Mg2(dobpdc) exhibits exceptional performance for CO2 capture under conditions relevant to the separation of CO2 from landfill gas. More broadly, these results highlight new opportunities for the fundamental design of diamine-Mg2(dobpdc) materials with even higher capacities than those predicted based on CO2 chemisorption alone.

9.
PLoS Pathog ; 18(9): e1010836, 2022 09.
Article in English | MEDLINE | ID: mdl-36095021

ABSTRACT

Pathogenic Chlamydia species are coccoid bacteria that use the rod-shape determining protein MreB to direct septal peptidoglycan synthesis during their polarized cell division process. How the site of polarized budding is determined in this bacterium, where contextual features like membrane curvature are seemingly identical, is unclear. We hypothesized that the accumulation of the phospholipid, cardiolipin (CL), in specific regions of the cell membrane induces localized membrane changes that trigger the recruitment of MreB to the site where the bud will arise. To test this, we ectopically expressed cardiolipin synthase (Cls) and observed a polar distribution for this enzyme in Chlamydia trachomatis. In early division intermediates, Cls was restricted to the bud site where MreB is localized and peptidoglycan synthesis is initiated. The localization profile of 6xHis tagged Cls (Cls_6xH) throughout division mimicked the distribution of lipids that stain with NAO, a dye that labels CL. Treatment of Chlamydia with 3',6-dinonylneamine (diNN), an antibiotic targeting CL-containing membrane domains, resulted in redistribution of Cls_6xH and NAO-staining phospholipids. In addition, 6xHis tagged MreB localization was altered by diNN treatment, suggesting an upstream regulatory role for CL-containing membranes in directing the assembly of MreB. This hypothesis is consistent with the observation that the clustered localization of Cls_6xH is not dependent upon MreB function or peptidoglycan synthesis. Furthermore, expression of a CL-binding protein at the inner membrane of C. trachomatis dramatically inhibited bacterial growth supporting the importance of CL in the division process. Our findings implicate a critical role for localized CL synthesis in driving MreB assembly at the bud site during the polarized cell division of Chlamydia.


Subject(s)
Chlamydia trachomatis , Peptidoglycan , Anti-Bacterial Agents , Bacterial Proteins/genetics , Bacterial Proteins/metabolism , Cardiolipins , Cell Division , Chlamydia trachomatis/metabolism , Phospholipids/metabolism
10.
J Appl Clin Med Phys ; 25(3): e14310, 2024 Mar.
Article in English | MEDLINE | ID: mdl-38373283

ABSTRACT

PURPOSE: Radiation therapy (RT) of pediatric brain cancer is known to be associated with long-term neurocognitive deficits. Although target and organs-at-risk (OARs) are contoured as part of treatment planning, other structures linked to cognitive functions are often not included. This paper introduces a novel automatic segmentation tool specifically designed for the unique challenges posed by pediatric patients undergoing brain RT, as well as its seamless integration into the existing clinical workflow. METHODS AND MATERIALS: Images of 47 pediatric brain cancer patients aged 1 to 20 years old and 33 two-year-old healthy infants were used to train a vision transformer, UNesT, for the segmentation of five brain OARs. The trained model was then incorporated to clinical workflow via DICOM connections between a treatment planning system (TPS) and a server hosting the trained model such that scans are sent from TPS to the server, automatically segmented, and sent back to TPS for treatment planning. RESULTS: The proposed automatic segmentation framework achieved a median dice similarity coefficient of 0.928 (frontal white matter), 0.908 (corpus callosum), 0.933 (hippocampi), 0.819 (temporal lobes), and 0.960 (brainstem) with a mean ± SD run time of 1.8 ± 0.67 s over 20 test cases. CONCLUSIONS: The pediatric brain segmentation tool showed promising performance on five OARs linked to neurocognitive functions and can easily be extended for additional structures. The proposed integration to the clinic enables easy access to the tool from clinical platforms and minimizes disruption to existing workflow while maximizing its benefits.


Subject(s)
Brain Neoplasms , Deep Learning , Humans , Child , Infant , Child, Preschool , Adolescent , Young Adult , Adult , Workflow , Image Processing, Computer-Assisted/methods , Organs at Risk , Radiotherapy Planning, Computer-Assisted/methods , Brain Neoplasms/diagnostic imaging , Brain Neoplasms/radiotherapy , Brain/diagnostic imaging
11.
J Appl Clin Med Phys ; 25(10): e14485, 2024 Oct.
Article in English | MEDLINE | ID: mdl-39190567

ABSTRACT

PURPOSE: A single treatment planning system (TPS) model for matched linacs provides flexible clinical workflows from patient treatment to intensity-modulated radiation therapy (IMRT) quality assurance (QA) measurement. Since general guidelines for building a single TPS model and its validation for matched linacs are not well established, we present our RayStation photon TPS modeling strategy for matched Elekta VersaHD linacs. METHOD: The four linacs installed from 2013 to 2020 were matched in terms of Percent Depth Dose (PDD), profile, output factor and wedge factors for 6-MV, 10-MV, 15-MV, and 6-MV-FFF, and maintained following TG-142 recommendations until RayStation commissioning. The RayStation single model was built to represent all four linacs within the tolerance limits recommended by MPPG-5.a. The comprehensive validation tests were performed for one linac following MPPG-5.a and TG-119 guidelines, and spot checks for the other three. Our TPS modeling/validation method was evaluated by re-analyzing the previous 103 patient-specific IMRT/volumetric modulated arc therapy (VMAT) QA measurements with the calculated planar doses by the single model in comparison with the analysis results using four individual Pinnacle TPS models. RESULTS: For all energies, our single model PDDs were within 1% agreement of the four-linac commissioning measurements. The MPPG-5.a validation tests from 5.1 through 7.5 and all TG-119 measurements passed within the recommended tolerance limits. The IMRT QA results (mean ± standard deviation) for RayStation single model versus Pinnacle individual models were 98.9% ± 1.3% and 98.0% ± 1.4% for 6-MV, 99.9% ± 0.1% and 99.1% ± 1.9% for 10-MV, and 98.2% ± 1.3% and 97.9% ± 1.8% for 6-MV-FFF, respectively. CONCLUSION: We successfully built and validated a single photon beam model in RayStation for four Elekta Linacs. The proposed new validation methods were proven to be both efficient and effective.


Subject(s)
Particle Accelerators , Photons , Quality Assurance, Health Care , Radiotherapy Dosage , Radiotherapy Planning, Computer-Assisted , Radiotherapy, Intensity-Modulated , Radiotherapy, Intensity-Modulated/methods , Humans , Radiotherapy Planning, Computer-Assisted/methods , Photons/therapeutic use , Particle Accelerators/instrumentation , Quality Assurance, Health Care/standards , Neoplasms/radiotherapy , Phantoms, Imaging
12.
Sensors (Basel) ; 24(16)2024 Aug 08.
Article in English | MEDLINE | ID: mdl-39204828

ABSTRACT

Wireless local area networks (WLANs) have recently evolved into technologies featuring extremely high throughput and ultra-high reliability. As WLANs are predominantly utilized in Internet of Things (IoT) and Wi-Fi-enabled sensor applications powered by coin cell batteries, these high-efficiency, high-performance technologies often cause significant battery depletion. The introduction of the trigger frame-based uplink transmission method, designed to enhance network throughput, lacks adequate security measures, enabling attackers to manipulate trigger frames. Devices receiving such frames must respond immediately; however, if a device receives a fake trigger frame, it fails to enter sleep mode, continuously sending response signals and thereby increasing power consumption. This problem is specifically acute in next-generation devices that support multi-link operation (MLO), capable of simultaneous transmission and reception across multiple links, rendering them more susceptible to battery draining attacks than conventional single-link devices. To address this, this paper introduces a Secure Triggering Frame-Based Dynamic Power Saving Mechanism (STF-DPSM) specifically designed for multi-link environments. Experimental results indicate that even in a multi-link environment with only two links, the STF-DPSM improves energy efficiency by an average of approximately 55.69% over conventional methods and reduces delay times by an average of approximately 44.7% compared with methods that consistently utilize encryption/decryption and integrity checks.

13.
J Clin Nurs ; 33(4): 1470-1481, 2024 Apr.
Article in English | MEDLINE | ID: mdl-38050923

ABSTRACT

AIM: This study aimed to investigate the relationships among occupational stress, recovery experience and turnover intention among nurses caring for patients with coronavirus disease 2019 (COVID-19). BACKGROUND: The high turnover intention among nurses affect patient safety quality of patient care. DESIGN: The cross-sectional study design was used. This study was guided by STROBE. METHODS: Convenience sampling identified 202 registered nurses working in the COVID-19 wards of three tertiary general hospitals in two cities in South Korea. The collected data were analysed using SPSS version 26.0, and the PROCESS macro in SPSS was employed to estimate path coefficients and assess the adequacy of the model. The moderating effects of recovery experience on the pathway in which occupational stress of the participants affects turnover intention were verified using model 1 of the SPSS PROCESS macro proposed by Hayes. RESULTS: The recovery experience did not significantly mediate the relationship between occupational stress and turnover intention. However, it had significant moderating effect on the relationship between occupational stress and turnover intention (ß = .005, 95% CI [.001, .010]). The effect of occupational stress on turnover intention was dependent on recovery experience. CONCLUSION: The results revealed that occupational stress among nurses caring for patients with COVID-19 affect the turnover intention and the level of recovery experience moderates this relationship. Thus, not only during the COVID-19 pandemic but also during challenging times of various infectious disease outbreaks, hospitals can enhance the health and well-being of nurses and promote the retention of nursing staff. IMPLICATIONS FOR THE PROFESSION: During the COVID-19 pandemic, nurses have been exposed to understaffing and overwhelming workloads. However, policies for nurses' welfare and benefits are still insufficient, even as the pandemic comes to an end. The results of this study indicate that sufficient rest and appropriate nursing personnel are of utmost importance to nurses. PATIENT OR PUBLIC CONTRIBUTION: No patient or public contribution.


Subject(s)
COVID-19 , Nurses , Nursing Staff, Hospital , Occupational Stress , Humans , Intention , Cross-Sectional Studies , Pandemics , Job Satisfaction , COVID-19/epidemiology , Occupational Stress/epidemiology , Personnel Turnover , Surveys and Questionnaires
14.
Nano Lett ; 23(9): 3897-3903, 2023 05 10.
Article in English | MEDLINE | ID: mdl-37083438

ABSTRACT

Simple, low-cost, and accurate nucleic acid assay platforms hold great promise for point-of-care (POC) pathogen detection, disease surveillance, and control. Plasmonic photothermal polymerase chain reaction (PPT-PCR) is a powerful and efficient nucleic acid amplification technique, but it lacks a simple and convenient analysis method for POC applications. Herein, we propose a novel plasmonic cross-linking colorimetric PCR (PPT-ccPCR) assay by integrating plasmonic magnetic nanoparticle (PMN)-based PPT-PCR with gold nanoparticle (AuNP)-based cross-linking colorimetry. AuNPs form assembled structures with the PMNs in the presence of amplicons and collect in a magnetic field, resulting in color changes to the supernatant. Target DNA with concentrations as low as 5 copies/µL can be visually detected within 40 min. The achieved limit of detection was 1.8 copies/µL based on the absorption signals. This simple and sensitive strategy needs no expensive instrumentation and demonstrates high potential for POC detection while enabling further applications in clinical diagnostics.


Subject(s)
Biosensing Techniques , Metal Nanoparticles , Colorimetry/methods , Gold/chemistry , Metal Nanoparticles/chemistry , DNA/chemistry , Polymerase Chain Reaction , Nucleic Acid Amplification Techniques/methods
15.
Int J Mol Sci ; 25(17)2024 Aug 23.
Article in English | MEDLINE | ID: mdl-39273099

ABSTRACT

Cholesterol homeostasis is pivotal for cellular function. Acyl-coenzyme A:cholesterol acyltransferase 1 (ACAT1), also abbreviated as SOAT1, is an enzyme responsible for catalyzing the storage of excess cholesterol to cholesteryl esters. ACAT1 is an emerging target to treat diverse diseases including atherosclerosis, cancer, and neurodegenerative diseases. F12511 is a high-affinity ACAT1 inhibitor. Previously, we developed a stealth liposome-based nanoparticle to encapsulate F12511 to enhance its delivery to the brain and showed its efficacy in treating a mouse model for Alzheimer's disease (AD). In this study, we introduce F26, a close derivative of F12511 metabolite in rats. F26 was encapsulated in the same DSPE-PEG2000/phosphatidylcholine (PC) liposome-based nanoparticle system. We employed various in vitro and in vivo methodologies to assess F26's efficacy and toxicity compared to F12511. The results demonstrate that F26 is more effective and durable than F12511 in inhibiting ACAT1, in both mouse embryonic fibroblasts (MEFs), and in multiple mouse tissues including the brain tissues, without exhibiting any overt systemic or neurotoxic effects. This study demonstrates the superior pharmacokinetic and safety profile of F26 in wild-type mice, and suggests its therapeutic potential against various neurodegenerative diseases including AD.


Subject(s)
Liposomes , Nanoparticles , Sterol O-Acyltransferase , Animals , Liposomes/chemistry , Mice , Nanoparticles/chemistry , Sterol O-Acyltransferase/antagonists & inhibitors , Sterol O-Acyltransferase/metabolism , Acetyl-CoA C-Acetyltransferase/antagonists & inhibitors , Acetyl-CoA C-Acetyltransferase/metabolism , Brain/metabolism , Brain/drug effects , Enzyme Inhibitors/pharmacology , Enzyme Inhibitors/chemistry , Enzyme Inhibitors/administration & dosage , Enzyme Inhibitors/pharmacokinetics , Rats , Male , Alzheimer Disease/drug therapy , Alzheimer Disease/metabolism
16.
J Bacteriol ; 205(6): e0009223, 2023 06 27.
Article in English | MEDLINE | ID: mdl-37191556

ABSTRACT

Chlamydia trachomatis is an obligate intracellular bacterial pathogen. In evolving to the intracellular niche, Chlamydia has reduced its genome size compared to other bacteria and, as a consequence, has a number of unique features. For example, Chlamydia engages the actin-like protein MreB, rather than the tubulin-like protein FtsZ, to direct peptidoglycan (PG) synthesis exclusively at the septum of cells undergoing polarized cell division. Interestingly, Chlamydia possesses another cytoskeletal element-a bactofilin ortholog, BacA. Recently, we reported BacA is a cell size-determining protein that forms dynamic membrane-associated ring structures in Chlamydia that have not been observed in other bacteria with bactofilins. Chlamydial BacA possesses a unique N-terminal domain, and we hypothesized this domain imparts the membrane-binding and ring-forming properties of BacA. We show that different truncations of the N terminus result in distinct phenotypes: removal of the first 50 amino acids (ΔN50) results in large ring structures at the membrane whereas removal of the first 81 amino acids (ΔN81) results in an inability to form filaments and rings and a loss of membrane association. Overexpression of the ΔN50 isoform altered cell size, similar to loss of BacA, suggesting that the dynamic properties of BacA are essential for the regulation of cell size. We further show that the region from amino acid 51 to 81 imparts membrane association as appending it to green fluorescent protein (GFP) resulted in the relocalization of GFP from the cytosol to the membrane. Overall, our findings suggest two important functions for the unique N-terminal domain of BacA and help explain its role as a cell size determinant. IMPORTANCE Bacteria use a variety of filament-forming cytoskeletal proteins to regulate and control various aspects of their physiology. For example, the tubulin-like FtsZ recruits division proteins to the septum whereas the actin-like MreB recruits peptidoglycan (PG) synthases to generate the cell wall in rod-shaped bacteria. Recently, a third class of cytoskeletal protein has been identified in bacteria-bactofilins. These proteins have been primarily linked to spatially localized PG synthesis. Interestingly, Chlamydia, an obligate intracellular bacterium, does not have PG in its cell wall and yet possesses a bactofilin ortholog. In this study, we characterize a unique N-terminal domain of chlamydial bactofilin and show that this domain controls two important functions that affect cell size: its ring-forming and membrane-associating properties.


Subject(s)
Bacterial Proteins , Tubulin , Bacterial Proteins/metabolism , Actins , Peptidoglycan/metabolism , Cytoskeletal Proteins/genetics , Cytoskeletal Proteins/metabolism , Chlamydia trachomatis/genetics , Chlamydia trachomatis/metabolism , Amino Acids
17.
J Am Chem Soc ; 145(31): 17151-17163, 2023 Aug 09.
Article in English | MEDLINE | ID: mdl-37493594

ABSTRACT

Diamine-appended Mg2(dobpdc) (dobpdc4- = 4,4'-dioxidobiphenyl-3,3'-dicarboxylate) metal-organic frameworks have emerged as promising candidates for carbon capture owing to their exceptional CO2 selectivities, high separation capacities, and step-shaped adsorption profiles, which arise from a unique cooperative adsorption mechanism resulting in the formation of ammonium carbamate chains. Materials appended with primary,secondary-diamines featuring bulky substituents, in particular, exhibit excellent stabilities and CO2 adsorption properties. However, these frameworks display double-step adsorption behavior arising from steric repulsion between ammonium carbamates, which ultimately results in increased regeneration energies. Herein, we report frameworks of the type diamine-Mg2(olz) (olz4- = (E)-5,5'-(diazene-1,2-diyl)bis(2-oxidobenzoate)) that feature diverse diamines with bulky substituents and display desirable single-step CO2 adsorption across a wide range of pressures and temperatures. Analysis of CO2 adsorption data reveals that the basicity of the pore-dwelling amine─in addition to its steric bulk─is an important factor influencing adsorption step pressure; furthermore, the amine steric bulk is found to be inversely correlated with the degree of cooperativity in CO2 uptake. One material, ee-2-Mg2(olz) (ee-2 = N,N-diethylethylenediamine), adsorbs >90% of the CO2 from a simulated coal flue stream and exhibits exceptional thermal and oxidative stability over the course of extensive adsorption/desorption cycling, placing it among top-performing adsorbents to date for CO2 capture from a coal flue gas. Spectroscopic characterization and van der Waals-corrected density functional theory calculations indicate that diamine-Mg2(olz) materials capture CO2 via the formation of ammonium carbamate chains. These results point more broadly to the opportunity for fundamentally advancing materials in this class through judicious design.

18.
Small ; 19(35): e2301905, 2023 Aug.
Article in English | MEDLINE | ID: mdl-37093175

ABSTRACT

The development of adsorbents for Kr and Xe separation is essential to meet industrial demands and for energy conservation. Although a number of previous studies have focused on Xe-selective adsorbents, stimuli-responsive Xe/Kr-selective adsorbents still remain underdeveloped. Herein, a Hofmann-type framework Co(DABCO)[Ni(CN)4 ] (referred to as CoNi-DAB; DABCO = 1,4-diazabicyclo[2,2,2]octane) that provides a temperature-dependent switchable Xe/Kr separation performance is reported. CoNi-DAB showed high Kr/Xe (0.8/0.2) selectivity with significant Kr adsorption at 195 K as well as high Xe/Kr (0.2/0.8) selectivity with superior Xe adsorption at 298 K. Such adsorption features are associated with the temperature-dependent rotational configuration of the DABCO ligand, which affects the kinetic gate-opening temperature of Xe and Kr. The packing densities of Xe (2.886 g cm-3 at 298 K) and Kr (2.399 g  cm-3 at 195 K) inside the framework are remarkable and comparable with those of liquid Xe (3.057 g cm-3 ) and liquid Kr (2.413 g cm-3 ), respectively. Breakthrough experiments confirm the temperature-dependent reverse separation performance of CoNi-DAB at 298 K under dry and wet (88% relative humidity) conditions and at 195 K under dry conditions. The unique adsorption behavior is also verified through van der Waals (vdW)-corrected density functional theory (DFT) calculations and nudged elastic band (NEB) simulations.

19.
Phys Rev Lett ; 130(13): 139901, 2023 Mar 31.
Article in English | MEDLINE | ID: mdl-37067331

ABSTRACT

This corrects the article DOI: 10.1103/PhysRevLett.121.015701.

20.
J Sex Med ; 20(6): 749-755, 2023 05 26.
Article in English | MEDLINE | ID: mdl-37037785

ABSTRACT

BACKGROUND: Structural alterations of the penis, including cavernosal apoptosis and fibrosis, induce venous leakage into the corpus cavernosum or cavernosal veno-occlusive dysfunction, a key pathophysiology associated with erectile dysfunction after radical prostatectomy. We hypothesized that the effect of JNK inhibitors on reducing apoptosis and hepatocyte growth factor (HGF) on inducing tissue regeneration could be another treatment mechanism of erectile dysfunction after radical prostatectomy. AIM: To investigate whether JNK inhibition combined with intracavernosal administration of HGF can completely preserve cavernosal veno-occlusive function (CVOF) in a rat model of erectile dysfunction induced via bilateral cavernosal nerve crush injury (CNCI). METHODS: A total of 42 male Sprague-Dawley rats were randomly assigned to sham control (group S), CNCI (group I), and CNCI treated with a combination of JNK inhibitor and HGF (group J + H) for 5 weeks after surgery. OUTCOMES: Rats in each group were evaluated via dynamic infusion cavernosometry (DIC), caspase-3 activity assay, Masson trichrome staining, immunohistochemical staining of α-smooth muscle actin, and immunoblotting at 5 weeks after surgery. RESULTS: Regarding CVOF, group I showed decreased papaverine response, increased maintenance, and drop rates of DIC when compared with group S. Group J + H showed significant improvement in the 3 DIC parameters vs group I. No differences in the 3 DIC parameters were found between group J + H and group S. Regarding the structural integrity of the corpus cavernosum, group I showed increased caspase-3 activity, decreased smooth muscle (SM):collagen ratio, decreased SM content, decreased protein expression of PECAM-1, and decreased phosphorylation of c-Jun and c-Met. Group J + H showed significant attenuation in histologic and molecular derangement as compared with group I. There were no differences in caspase-3 activity, SM content, SM:collagen ratio, PECAM-1 protein expression, c-Jun phosphorylation, and c-Met phosphorylation between groups J + H and S. CLINICAL IMPLICATIONS: Our results suggest that antiapoptotic and regenerative therapy for the corpus cavernosum is a potential mechanism of penile rehabilitation after radical prostatectomy. STRENGTHS AND LIMITATIONS: This study provides evidence that combination treatment of JNK inhibitor and HGF preserves erectile function by restoring corporal SM and endothelium. However, additional human studies are needed to confirm the clinical effect. CONCLUSION: Chronic treatment with JNK inhibitor and HGF may preserve CVOF to levels comparable to sham control by preserving the structural integrity of the corpus cavernosum and so represents a potential therapeutic option for preventing the development of cavernosal veno-occlusive dysfunction.


Subject(s)
Erectile Dysfunction , Trauma, Nervous System , Animals , Humans , Male , Rats , Caspase 3 , Disease Models, Animal , Erectile Dysfunction/drug therapy , Erectile Dysfunction/etiology , Hepatocyte Growth Factor/pharmacology , Hepatocyte Growth Factor/therapeutic use , Penile Erection , Penis/innervation , Platelet Endothelial Cell Adhesion Molecule-1 , Rats, Sprague-Dawley
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