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1. Profile of HLA-B27-positive enthesitis/spondylitis-related arthritis in Senegal, West Africa

Author

Mounib M. Sabounji, Aïssatou Ndiaye, and Saïdou Diallo

Subjects
Enthesitis-related arthritis, Sacroiliitis, Positive HLA-B27, Disease activity, Functional disability, Senegal, Pediatrics, RJ1-570, Diseases of the musculoskeletal system, RC925-935
Abstract

Abstract Background Enthesitis/spondylitis-related arthritis (ERA) is a type of juvenile idiopathic arthritis (JIA) frequently associated with HLA-B27. In sub-Saharan Africa, HLA-B27-positive ERA hasn’t been the subject of a specific study. Objectives We aimed to describe the clinical features, disease activity, functional disability and treatment of HLA-B27-positive ERA at diagnosis in Senegal and compare the findings to other populations. Methods We conducted a retrospective study by reviewing the medical records of patients diagnosed with ERA with an age of symptom onset

Published
2024
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2. Childhood-onset rheumatoid arthritis at a tertiary hospital in Senegal, West Africa

Author

Mounib M. Sabounji, Hilaire Lissimo, and Amina Deme

Subjects
Childhood-onset, Rheumatoid arthritis, Disease activity, Functional disability, Senegal, Pediatrics, RJ1-570, Diseases of the musculoskeletal system, RC925-935
Abstract

Abstract Background Childhood-onset rheumatoid arthritis (CORA), known as rheumatoid factor (RF)-positive juvenile idiopathic arthritis is a type of juvenile idiopathic arthritis that shares the same genetic factors and clinical features as adult-onset rheumatoid arthritis. In Africa, CORA hasn’t been the subject of a specific study. Objectives The aim of this study is to describe the clinical features, disease activity, functional disability, and treatment of CORA at diagnosis in Senegal and compare the findings to other CORA populations. Methods We conducted a mixed cohort study by reviewing the medical records of patients diagnosed with CORA with an age of symptom onset 5.1). The mean DAS28-CRP was 5.4 ± 1.1. The median HAQ was 2.12 with a mean HAQ of 1.9. Nineteen (90.5%) patients were treated with methotrexate, while 17 (81%) had a combination of methotrexate and hydroxychloroquine. Oral prednisone was used in 17 (81%) cases. Non-steroidal anti-inflammatory drugs were used in 4 cases (19%). After 6 months of treatment, mean DAS28-CRP was 2.9. Conclusion In our study, CORA mainly affects 13-year-old girls, characterised by high disease activity with joint deformity and significant functional impairment. Treatment is mainly based on methotrexate, prednisone and hydroxychloroquine. Further studies are needed to determine the exact clinical phenotype of this disease.

Published
2023
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6. Demographic Transition in Morocco and the Emerging Demographic Window of Opportunity

Author

MOUNIB, M. and DINAR, B.

Subjects
Demographic transition, age structure, window of opportunity, Morocco
Abstract

Fertility in Morocco has declined in recent decades. Similarly, mortality rates have shown steady and significant declines. These demographic changes are not without impact. The question arises: To what extent can the demographic transition be an economic opportunity for Morocco? Using national and international demographic data and based on the demographic transition model and economic dependency ratios, this paper seeks to describe the characteristics of Morocco's demographic transition, examine its effects on the age structure of the population and highlight the economic implications of demographic change in Morocco. Morocco's rapid demographic transition brings about many changes in the size and age structure of the population that open up the possibility of stimulating economic variables. The demographic window of opportunity is estimated to be open from 2003 and to continue to be open until the year 2055, a period of about 52 years. This demographic window offers opportunities for economic growth through increasing the labor force, encouraging savings and improving human capital., Alternatives Managériales Economiques, Vol. 4, No 4 (2022)

Published
2022
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7. Late Onset Peripheral Spondyloarthritis in Woman with Hashimoto’s Thyroiditis: A Case Report

Author

Mounib M. Sabounji, A iuml, ssatou Ndiaye, and Laurine M. Adogble

Subjects
endocrine system, medicine.medical_specialty, endocrine system diseases, business.industry, Enthesitis, Arthritis, Late onset, General Medicine, Human leukocyte antigen, medicine.disease, Dermatology, Thyroiditis, Thyroid disorder, Quality of life, medicine, Methotrexate, medicine.symptom, business, medicine.drug
Abstract

Late onset peripheral spondyloarthritis is a particular clinical form of spondyloarthritis, occurring at the age of 50 years or older. Hashimoto’s thyroiditis (HT) is the most frequent autoimmune thyroid disorder responsible for considerable morbidity. HT is well known to be associated with many systemic autoimmune, it is less clear whether a similar association may also be present for spondyloarthritis. Here, we report a case of late onset peripheral spondyloarthritis in a 62-year-old African woman with a 12-year history of Hashimoto’s thyroiditis, a previously undescribed association in the literature. The diagnosis of Late onset peripheral spondyloarthritis was made according to the Assessment of SpondyloArthritis international Society (ASAS) criteria for peripheral spondyloarthritis (presence of arthritis, enthesitis and Human Leukocyte Antigen B27). She was treated with methotrexate and celebid. After 6 months of treatment, the evolution was favourable with an overall improvement in her symptomatology and quality of life. The coexistence of late onset peripheral spondyloarthritis and Hashimoto’s thyroiditis may be related to the presence of a genetic background predisposing to both diseases.

Published
2021
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9. O001. Juvenile-onset spondyloarthritis: a study of 54 cases in Senegal

Author

Abbasse Abba, Aminata Gueye, Mounib M Sabounji, M. Niasse, Saïdou Diallo, and Aïssatou Ndiaye

Subjects
Pediatrics, medicine.medical_specialty, business.industry, Hip region, Disease progression, Enthesitis, Sacroiliitis, Sacroiliac joint pain, Knee region, medicine.disease, Juvenile onset, Rheumatology, medicine, Pharmacology (medical), medicine.symptom, Age of onset, business
Abstract

Background Juvenile onset spondyloarthritis (JoSpA), also known as enthesitis-related arthritis (ERA), accounts for approximately 10-20% of all juvenile idiopathic arthritis (JIA) and affects four times more boys than girls. It’s characterized by frequent arthritis of the lower limbs and strongly associated with presence of HLA-B27. In sub-Saharan Africa, SpA is considered as a rare disease where the frequency of HLA-B27 is Methods A retrospective observational study, was conducted in rheumatology department of Aristide Le Dantec Hospital, between January 2012 and December 2020. Two hundred and fifteen JIA cases were collated, 54 were JoSpA fulfilling the ILAR classification criteria of ERA, with age of onset of symptoms ≤ 16 years. Exclusion criteria were: psoriasis or history of psoriasis, presence of rheumatoid factor and presence of systemic arthritis. Disease activity was assessed by activity indexes (BASDAI and ASDAS), functional impact by BASFI, and Quality of Life by Nottingham Health Profile (NHP). Results A total of 54 patients (29 males and 25 females with a sex ratio M/F of 1.16) were included in the study. The mean age at onset of symptoms was 12.4 years, mean age at diagnosis was 23.2 years. 34 (63%) patients were of Fula ethnicity. The inaugural symptomatology was exclusively peripheral in 33 cases (61.1%), axial and peripheral in 23 cases (42.6%). At the time of diagnosis, arthritis was located in the lower limbs in 92.1% of cases, where knee involvement was predominant in 30 (55.6%) cases, followed by hip involvement in 17 (31.5%) cases. Axial involvement was present in 46 cases (85.2%), dominated by sacroiliac pain/ buttock pain in 73.9%, followed by low back pain in 52.1%. Entheseal involvement was present in 30 cases, dominated by Achilles enthesitis and plantar fasciitis in 83.3%. Involvement of the anterior chest wall was found in 12 patients. Uveitis was present in 3 patients. Biological inflammatory syndrome was found in 55.5% of cases, with a mean CRP level of 17.1mg/l. Search for HLA-B27 was carried out in 34 patients, 25 were HLA-B27 positive (73.5%). Among HLA-B27 positive patients, 21 (84%) were of Fula ethnicity. On radiography, sacroiliitis was present in 29 patients, and 8 had coxitis. On admission, the mean BASDAI and ASDAS-CRP were 4.66/10 and 2.98 respectively, mean BASFI was 4.36/10. NHP showed impairment of all items, especially the concepts of energy, pain, sleep and physical mobility. Treatment was based on: NSAIDs (42 patients, 79.6%), methotrexate (30 patients, 55.5%), sulfasalazine (8 patients, 14.8%), oral steroids (15 patients, 27.7%), intra-articular joint steroid injections (6 patients), hip replacement surgery (2 patients), and functional rehabilitation (5 patients). The evolution was favorable, after 6 months of treatment, mean BASDAI and BASFI were 2.47/10 and 2.19/10 respectively. Conclusion In our study, JoSpA affects both girls and boys. The prevalence of HLA-B27 was 73.5% of cases, especially in the Fula ethnic group. The disease is considered as a source of significant functional impact and impairment of quality of life. The treatment was based mainly on conventional treatment. Evolution was globally favorable after treatment. Further epidemiological studies are needed to obtain reliable prevalence rates and to better understand our findings.

Published
2021
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14. Magnesium Alloy Elektron21 Reinforced with ALN: Processing, Microstructure and Compression Creep Response

Author

Katsarou, L., Mounib, M., Williams Lefebvre, and Dieringa, H.

Subjects
ddc:620.11
Abstract

The development of high performance aluminium and magnesium based materials is a subject investigated within the European Commision project ExoMet, that started in the summer of 2012. Novel grain refining and nanoparticle addition in combination with physical melt treatment using external fields is expected to improve mechanical properties of aluminium and magnesium alloys in terms of strength and ductility, but also creep resistance. External fields applied during mixing are electromagnetic, ultrasonic, and mechanical. In this study, magnesium alloy Elektron21 was melted and AlN nanoparticles were added to the melt. The melt was mixed by simultaneously applying mechanical and ultrasonic stirring to avoid agglomeration. A modified permanent mould indirect chill casting process was selected for casting the materials, because this process results in very dense casting, free of pores and blowholes. The resulting materials were examined by metallography, electron microscopy, hardness, compression creep and mechanical compression strength methods. Microstructure investigation, including TEM, shows that most of the AlN-particles are pushed in the intermetallic phase (i.e. in interdendritic regions) during solidification, whereas few of them are trapped in the magnesium-matrix, not far from the intermetallic regions. Compression creep tests at a temperature of 240 °C and constant stresses between 70 and 200 MPa were performed and the minimum creep rate was determined from these tests. Comparison of creep rates of nanocomposite and unreinforced alloy Elektron21 show that the addition of 1 wt. -% AlN nanoparticles improves creep strength significantly. From the results stress exponents are calculated to obtain information about the rate controlling deformation mechanisms during creep.

Published
2015

19. Notes.

Author

Mounib, M. S., Evans, J. V., Hill-Cottingham, D. G., Scholes, P. H., Holmes, D. G., Tucker, H. T., and Shelton, R. A. J.

Published
1957
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20. Effects of Cadmium on Developing Eggs of the Pacific Herring with Particular Reference to Carbon Dioxide Fixing Enzymes

Author

Said Mounib, M., Rosenthal, Harald, and Eisan, Joanne S.

Abstract

The effect of 10 ppm of cadmium on eggs of the Pacific herring, Clupea pallasii, incubated in sea water of 20 percent salinity at 5°C was examined at five stages of development. Eggs exposed to cadmium hatched approximately 10 days earlier than those of the control; the percentage of viable hatch was 82.0 in the control and 27.3 for eggs exposed to cadmium; the average size of viable larvae was 8.46 and 5.49mm respectively. Like the garpike, cadmium uptake by herring eggs reached its maximum early in the incubation period and was maintained throughout the 5 developmental stages studied; the total uptake was, however, much greater than that reported for Baltic herring.The relative activity of all four carbon dioxide fixing enzymes studied was depressed by exposure to cadmium; propionyl CoA carboxylase was depressed before flattening of the blastodisc stage; PEP carboxykinase depression started prior to closure of the blastopore, whereas NAD- and NADP-malic enzymes were depressed only prior to the hatching stage. It is postulated that the relatively small larvae hatching from eggs exposed to cadmium may be the result of: 1) depression of the relative activity of the carbon dioxide fixing enzymes at different stages of development, and/or 2) cadmium being bound to the chorion making it vulnerable, thus producing earlier hatching and premature larvae.

Published
1976
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21. Cryogenic preservation of fish and mammalian spermatozoa

Author

Mounib, M. S.

Abstract

Summary.Various combinations of sucrose, reduced glutathione and potassium bicarbonate were tested for the cryogenic preservation of salmon spermatozoa. When a fast freezing procedure was followed, the extender that gave the best results was composed of 1 part of dimethyl sulphoxide (DMSO), as a protective agent, and 7 parts of a medium containing 125 mm-sucrose, 6·50 mm-reduced glutathione and 100 mm-potassium bicarbonate. Salmon and cod spermatozoa were kept frozen in this extender for 1 year. Freezing resulted in a reduction in the number of motile spermatozoa but had no significant effect on the degree of progression of motile spermatozoa or on their fertilizing capacity. When glycerol replaced DMSO in the extender and a slow freezing procedure was followed, similar results were obtained for the spermatozoa of bull or man; although the number of motile spermatozoa was reduced, there was no effect on the progressive motility score.

Published
1978
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23. EFFECTS OF CERTAIN HORMONES ON THE METABOLISM OF BULL SPERMATOZOA

Author

Mounib, M. Said

Abstract

17β-Oestradiol, progesterone, testosterone, PMS and HCG were tested for their possible effects on the metabolism of washed bull spermatozoa when incubated in Krebs-Ringer phosphate medium at 37° C.Steroid hormones suppressed the oxygen uptake of the spermatozoa, and this was particularly evident with progesterone and testosterone the addition of which led also to a rise in substrate (glucose and pyruvate) utilization and in lactate production. Steroid hormones (1 mg/4 ml suspension) produced their effects when they were added to the medium as crystals or after they had been dissolved in propylene glycol, but more effectively in the latter case. The anaerobic glycolysis of spermatozoa, however, was not influenced by steroid hormones.PMS and HCG at the doses used (20 IU/4 ml suspension) did not affect the metabolism of spermatozoa.The results are discussed in relation to the possibility that steroid hormones may play a direct part in regulating the metabolic pattern of spermatozoa, which may be, in turn, associated with a shift from the epididymal to the ejaculated and then to the capacitated pattern.

Published
1964
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29. Achieving Sub-ppm Sensitivity in SO 2 Detection with a Chemically Stable Covalent Organic Framework.

Author

Zhao W, Obeso JL, López-Cervantes VB, Bahri M, Sánchez-González E, Amador-Sánchez YA, Ren J, Browning ND, Peralta RA, Barcaro G, Monti S, Solis-Ibarra D, Ibarra IA, and Zhao D

Abstract

We report the inaugural experimental investigation of covalent organic frameworks (COFs) to address the formidable challenge of SO 2 detection. Specifically, an imine-functionalized COF (SonoCOF-9) demonstrated a modest and reversible SO 2 sorption of 3.5 mmol g -1 at 1 bar and 298 K. At 0.1 bar (and 298 K), the total SO 2 uptake reached 0.91 mmol g -1 with excellent reversibility for at least 50 adsorption-desorption cycles. An isosteric enthalpy of adsorption (ΔH ads ) for SO 2 equaled -42.3 kJ mol -1 , indicating a relatively strong interaction of SO 2 molecules with the COF material. Also, molecular dynamics simulations and Møller-Plesset perturbation theory calculations showed the interaction of SO 2 with π density of the rings and lone pairs of the N atoms of SonoCOF-9. The combination of experimental data and theoretical calculations corroborated the potential use of this COF for the selective detection and sensing of SO 2 at the sub-ppm level (0.0064 ppm of SO 2 )., (© 2024 The Authors. Angewandte Chemie International Edition published by Wiley-VCH GmbH.)

Published
2025
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30. Nanoscale covalent organic frameworks for enhanced photocatalytic hydrogen production.

Author

Zhao W, Luo L, Cong M, Liu X, Zhang Z, Bahri M, Li B, Yang J, Yu M, Liu L, Xia Y, Browning ND, Zhu WH, Zhang W, and Cooper AI

Abstract

Nanosizing confers unique functions in materials such as graphene and quantum dots. Here, we present two nanoscale-covalent organic frameworks (nano-COFs) that exhibit exceptionally high activity for photocatalytic hydrogen production that results from their size and morphology. Compared to bulk analogues, the downsizing of COFs crystals using surfactants provides greatly improved water dispersibility and light-harvesting properties. One of these nano-COFs shows a hydrogen evolution rate of 392.0 mmol g -1 h -1 (33.3 μmol h -1 ), which is one of the highest mass-normalized rates reported for a COF or any other organic photocatalysts. A reverse concentration-dependent photocatalytic phenomenon is observed, whereby a higher photocatalytic activity is found at a lower catalyst concentration. These materials also show a molecule-like excitonic nature, as studied by photoluminescence and transient absorption spectroscopy, which is again a function of their nanoscale dimensions. This charts a new path to highly efficient organic photocatalysts for solar fuel production., (© 2024. The Author(s).)

Published
2024
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31. Porous isoreticular non-metal organic frameworks.

Author

O'Shaughnessy M, Glover J, Hafizi R, Barhi M, Clowes R, Chong SY, Argent SP, Day GM, and Cooper AI

Abstract

Metal-organic frameworks (MOFs) are useful synthetic materials that are built by the programmed assembly of metal nodes and organic linkers 1 . The success of MOFs results from the isoreticular principle 2 , which allows families of structurally analogous frameworks to be built in a predictable way. This relies on directional coordinate covalent bonding to define the framework geometry. However, isoreticular strategies do not translate to other common crystalline solids, such as organic salts 3-5 , in which the intermolecular ionic bonding is less directional. Here we show that chemical knowledge can be combined with computational crystal-structure prediction 6 (CSP) to design porous organic ammonium halide salts that contain no metals. The nodes in these salt frameworks are tightly packed ionic clusters that direct the materials to crystallize in specific ways, as demonstrated by the presence of well-defined spikes of low-energy, low-density isoreticular structures on the predicted lattice energy landscapes 7,8 . These energy landscapes allow us to select combinations of cations and anions that will form thermodynamically stable, porous salt frameworks with channel sizes, functionalities and geometries that can be predicted a priori. Some of these porous salts adsorb molecular guests such as iodine in quantities that exceed those of most MOFs, and this could be useful for applications such as radio-iodine capture 9-12 . More generally, the synthesis of these salts is scalable, involving simple acid-base neutralization, and the strategy makes it possible to create a family of non-metal organic frameworks that combine high ionic charge density with permanent porosity., (© 2024. The Author(s).)

Published
2024
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32. 2D to 3D Reconstruction of Boron-Linked Covalent-Organic Frameworks.

Author

Wang X, Fellowes T, Bahri M, Qu H, Li B, Niu H, Browning ND, Zhang W, Ward JW, and Cooper AI

Abstract

The transformation of two-dimensional (2D) covalent-organic frameworks (COFs) into three-dimensions (3D) is synthetically challenging, and it is typically addressed through interlayer cross-linking of alkene or alkyne bonds. Here, we report the first example of the chemical reconstruction of a 2D COF to a 3D COF with a complete lattice rearrangement facilitated by base-triggered boron hybridization. This chemical reconstruction involves the conversion of trigonal boronate ester linkages to tetrahedral anionic spiroborate linkages. This transformation reticulates the coplanar, closely stacked square cobalt(II) phthalocyanine (PcCo) units into a 3D perpendicular arrangement. As a result, the pore size of COFs expands from 2.45 nm for the initial 2D square lattice ( sql ) to 3.02 nm in the 3D noninterpenetrated network ( nbo ). Mechanistic studies reveal a base-catalyzed boronate ester protodeboronation pathway for the formation of the spiroborate structure.

Published
2024
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33. Accessing Mg-Ion Storage in V 2 PS 10 via Combined Cationic-Anionic Redox with Selective Bond Cleavage.

Author

Wright MA, Surta TW, Evans JA, Lim J, Jo H, Hawkins CJ, Bahri M, Daniels LM, Chen R, Zanella M, Chagas LG, Cookson J, Collier P, Cibin G, Chadwick AV, Dyer MS, Browning ND, Claridge JB, Hardwick LJ, and Rosseinsky MJ

Abstract

Magnesium batteries attract interest as alternative energy-storage devices because of elemental abundance and potential for high energy density. Development is limited by the absence of suitable cathodes, associated with poor diffusion kinetics resulting from strong interactions between Mg 2+ and the host structure. V 2 PS 10 is reported as a positive electrode material for rechargeable magnesium batteries. Cyclable capacity of 100 mAh g -1 is achieved with fast Mg 2+ diffusion of 7.2 × ${\times }$ 10 -11 -4 × ${\times }$ 10 -14  cm 2  s -1 . The fast insertion mechanism results from combined cationic redox on the V site and anionic redox on the (S 2 ) 2- site; enabled by reversible cleavage of S-S bonds, identified by X-ray photoelectron and X-ray absorption spectroscopy. Detailed structural characterisation with maximum entropy method analysis, supported by density functional theory and projected density of states analysis, reveals that the sulphur species involved in anion redox are not connected to the transition metal centres, spatially separating the two redox processes. This facilitates fast and reversible Mg insertion in which the nature of the redox process depends on the cation insertion site, creating a synergy between the occupancy of specific Mg sites and the location of the electrons transferred., (© 2024 The Authors. Angewandte Chemie International Edition published by Wiley-VCH GmbH.)

Published
2024
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34. Superionic lithium transport via multiple coordination environments defined by two-anion packing.

Author

Han G, Vasylenko A, Daniels LM, Collins CM, Corti L, Chen R, Niu H, Manning TD, Antypov D, Dyer MS, Lim J, Zanella M, Sonni M, Bahri M, Jo H, Dang Y, Robertson CM, Blanc F, Hardwick LJ, Browning ND, Claridge JB, and Rosseinsky MJ

Abstract

Fast cation transport in solids underpins energy storage. Materials design has focused on structures that can define transport pathways with minimal cation coordination change, restricting attention to a small part of chemical space. Motivated by the greater structural diversity of binary intermetallics than that of the metallic elements, we used two anions to build a pathway for three-dimensional superionic lithium ion conductivity that exploits multiple cation coordination environments. Li 7 Si 2 S 7 I is a pure lithium ion conductor created by an ordering of sulphide and iodide that combines elements of hexagonal and cubic close-packing analogously to the structure of NiZr. The resulting diverse network of lithium positions with distinct geometries and anion coordination chemistries affords low barriers to transport, opening a large structural space for high cation conductivity.

Published
2024
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35. Bioactivated and PEG-Protected Circa 2 nm Gold Nanoparticles for in Cell Labelling and Cryo-Electron Microscopy.

Author

Groysbeck N, Hanss V, Donzeau M, Strub JM, Cianférani S, Spehner D, Bahri M, Ersen O, Eltsov M, Schultz P, and Zuber G

Subjects
Animals, Humans, Cryoelectron Microscopy, Cell Nucleus metabolism, Mammals metabolism, Gold chemistry, Metal Nanoparticles chemistry
Abstract

Advances in cryo-electron microscopy (EM) enable imaging of protein assemblies within mammalian cells in a near native state when samples are preserved by cryogenic vitrification. To accompany this progress, specialized EM labelling protocols must be developed. Gold nanoparticles (AuNPs) of 2 nm are synthesized and functionalized to bind selected intracellular targets inside living human cells and to be detected in vitreous sections. As a proof of concept, thioaminobenzoate-, thionitrobenzoate-coordinated gold nanoparticles are functionalized on their surface with SV40 Nuclear Localization Signal (NLS)-containing peptides and 2 kDa polyethyleneglycols (PEG) by thiolate exchange to target the importin-mediated nuclear machinery and facilitate cytosolic diffusion by shielding the AuNP surface from non-specific binding to cell components, respectively. After delivery by electroporation into the cytoplasm of living human cells, the PEG-coated AuNPs diffuse freely in the cytoplasm but do not enter the nucleus. Incorporation of NLS within the PEG coverage promotes a quick nuclear import of the nanoparticles in relation to the density of NLS onto the AuNPs. Cryo-EM of vitreous cell sections demonstrate the presence of 2 nm AuNPs as single entities in the nucleus. Biofunctionalized AuNPs combined with live-cell electroporation procedures are thus potent labeling tools for the identification of macromolecules in cellular cryo-EM., (© 2023 The Authors. Small Methods published by Wiley-VCH GmbH.)

Published
2023
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36. BORIS/CTCFL-mediated chromatin accessibility alterations promote a pro-invasive transcriptional signature in melanoma cells.

Author

Moscona R, Janssen SM, Elchebly M, Papadakis AI, Rubin E, and Spatz A

Subjects
Humans, Cell Line, Tumor, Chromatin, DNA-Binding Proteins, Transcription Factors genetics, Melanoma genetics
Abstract

Melanoma is the deadliest form of skin cancer, due to its tendency to metastasize early. Brother of regulator of imprinted sites (BORIS), also known as CCCTC binding factor-like (CTCFL), is a transcription regulator that becomes ectopically expressed in melanoma. We recently showed that BORIS contributes to melanoma phenotype switching by altering the gene expression program of melanoma cells from an intermediate melanocytic state toward a more mesenchymal-like state. However, the mechanism underlying this transcriptional switch remains unclear. Here, ATAC-seq was used to study BORIS-mediated chromatin accessibility alterations in melanoma cells harboring an intermediate melanocytic state. The gene set that gained promoter accessibility, following ectopic BORIS expression, showed enrichment for biological processes associated with melanoma invasion, while promoters of genes associated with proliferation showed reduced accessibility. Integration of ATAC-seq and RNA-seq data demonstrated that increased chromatin accessibility was associated with transcriptional upregulation of genes involved in tumor progression processes, and the aberrant activation of oncogenic transcription factors, while reduced chromatin accessibility and downregulated genes were associated with repressed activity of tumor suppressors and proliferation factors. Together, these findings indicate that BORIS mediates transcriptional reprogramming in melanoma cells by altering chromatin accessibility and gene expression, shifting the cellular transcription landscape of melanoma cells toward a mesenchymal-like genetic signature., (© 2023 The Authors. Pigment Cell & Melanoma Research published by John Wiley & Sons Ltd.)

Published
2023
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37. MXene Aerogel Derived Ultra-Active Vanadia Catalyst for Selective Conversion of Sustainable Alcohols to Base Chemicals.

Author

Oefner N, Shuck CE, Schumacher L, Heck F, Hofmann K, Schmidpeter J, Li W, Bahri M, Mehdi BL, Drochner A, Albert B, Hess C, Gogotsi Y, and Etzold BJM

Abstract

Selective oxidation reactions are an important class of the current chemical industry and will be highly important for future sustainable chemical production. Especially, the selective oxidation of primary alcohols is expected to be of high future interest, as alcohols can be obtained on technical scales from biomass fermentation. The oxidation of primary alcohols produces aldehydes, which are important intermediates. While selective methanol oxidation is industrially established, the commercial catalyst suffers from deactivation. Ethanol selective oxidation is not commercialized but would give access to sustainable acetaldehyde production when using renewable ethanol. In this work, it is shown that employing 2D MXenes as building blocks allows one to design a nanostructured oxide catalyst composed of mixed valence vanadium oxides, which outperforms on both reactions known materials by nearly an order of magnitude in activity, while showing high selectivity and stability. The study shows that the synthesis route employing 2D materials is key to obtain these attractive catalysts. V 4 C 3 T x MXene structured as an aerogel precursor needs to be employed and mildly oxidized in an alcohol and oxygen atmosphere to result in the aspired nanostructured catalyst composed of mixed valence VO 2 , V 6 O 13 , and V 3 O 7 . Very likely, the bulk stable reduced valence state of the material together coupled with the nanorod arrangement allows for unprecedented oxygen mobility as well as active sites and results in an ultra-active catalyst.

Published
2023
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38. Packing-induced selectivity switching in molecular nanoparticle photocatalysts for hydrogen and hydrogen peroxide production.

Author

Yang H, Li C, Liu T, Fellowes T, Chong SY, Catalano L, Bahri M, Zhang W, Xu Y, Liu L, Zhao W, Gardner AM, Clowes R, Browning ND, Li X, Cowan AJ, and Cooper AI

Abstract

Molecular packing controls optoelectronic properties in organic molecular nanomaterials. Here we report a donor-acceptor organic molecule (2,6-bis(4-cyanophenyl)-4-(9-phenyl-9H-carbazol-3-yl)pyridine-3,5-dicarbonitrile) that exhibits two aggregate states in aqueous dispersions: amorphous nanospheres and ordered nanofibres with π-π molecular stacking. The nanofibres promote sacrificial photocatalytic H 2 production (31.85 mmol g -1  h -1 ) while the nanospheres produce hydrogen peroxide (H 2 O 2 ) (3.20 mmol g -1 h -1 in the presence of O 2 ). This is the first example of an organic photocatalyst that can be directed to produce these two different solar fuels simply by changing the molecular packing. These different packings affect energy band levels, the extent of excited state delocalization, the excited state dynamics, charge transfer to O 2 and the light absorption profile. We use a combination of structural and photophysical measurements to understand how this influences photocatalytic selectivity. This illustrates the potential to achieve multiple photocatalytic functionalities with a single organic molecule by engineering nanomorphology and solid-state packing., (© 2022. The Author(s), under exclusive licence to Springer Nature Limited.)

Published
2023
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39. Preparation of PLGA-Coated Porous Silica Nanofibers for Drug Release.

Author

Zhang M, Lidder J, Bahri M, and Zhang H

Abstract

Fibrous materials have unique applications in drug release and biomedical fields. This study reports on the preparation of porous silica nanofibers, using organic nanofibers as templates, and their use for drug release. Different from the commonly used electrospinning method, the organic nanofibers are produced via a self-assembly approach between melamine and benzene-1,3,5-tricarboxylic acid. Silica is then coated on the organic nanofibers via homogenization in a silica sol, a freeze-drying process, and then a sol-gel process. In order to regulate the surface area and mesopore volume of silica nanofibers, cetyltrimethyl ammonium bromide at different concentrations is used as template in the sol-gel process. With the removal of organic nanofibers and the surfactant by calcination, porous silica nanofibers are generated and then assessed as a scaffold for controlled drug release with ketoprofen as a model drug. Poly (D, L-lactide-co-glycolide) is coated on the silica nanofibers to achieve slow burst release and prolonged cumulative release of 25 days. This study demonstrates an effective method of preparing hollow silica nanofibers and the use of such nanofibers for long-term release with high drug loading.

Published
2022
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40. Photocatalytic Overall Water Splitting Under Visible Light Enabled by a Particulate Conjugated Polymer Loaded with Palladium and Iridium.

Author

Bai Y, Li C, Liu L, Yamaguchi Y, Bahri M, Yang H, Gardner A, Zwijnenburg MA, Browning ND, Cowan AJ, Kudo A, Cooper AI, and Sprick RS

Abstract

Polymer photocatalysts have received growing attention in recent years for photocatalytic hydrogen production from water. Most studies report hydrogen production with sacrificial electron donors, which is unsuitable for large-scale hydrogen energy production. Here we show that the palladium/iridium oxide-loaded homopolymer of dibenzo[b,d]thiophene sulfone (P10) facilitates overall water splitting to produce stoichiometric amounts of H 2 and O 2 for an extended period (>60 hours) after the system stabilized. These results demonstrate that conjugated polymers can act as single component photocatalytic systems for overall water splitting when loaded with suitable co-catalysts, albeit currently with low activities. Transient spectroscopy shows that the IrO 2 co-catalyst plays an important role in the generation of the charge separated state required for water splitting, with evidence for fast hole transfer to the co-catalyst., (© 2022 The Authors. Angewandte Chemie International Edition published by Wiley-VCH GmbH.)

Published
2022
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41. Accelerated Synthesis and Discovery of Covalent Organic Framework Photocatalysts for Hydrogen Peroxide Production.

Author

Zhao W, Yan P, Li B, Bahri M, Liu L, Zhou X, Clowes R, Browning ND, Wu Y, Ward JW, and Cooper AI

Abstract

A high-throughput sonochemical synthesis and testing strategy was developed to discover covalent organic frameworks (COFs) for photocatalysis. In total, 76 conjugated polymers were synthesized, including 60 crystalline COFs of which 18 were previously unreported. These COFs were then screened for photocatalytic hydrogen peroxide (H 2 O 2 ) production using water and oxygen. One of these COFs, sonoCOF-F2, was found to be an excellent photocatalyst for photocatalytic H 2 O 2 production even in the absence of sacrificial donors. However, after long-term photocatalytic tests (96 h), the imine sonoCOF-F2 transformed into an amide-linked COF with reduced crystallinity and loss of electronic conjugation, decreasing the photocatalytic activity. When benzyl alcohol was introduced to form a two-phase catalytic system, the photostability of sonoCOF-F2 was greatly enhanced, leading to stable H 2 O 2 production for at least 1 week.

Published
2022
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42. A Pyrene-4,5,9,10-Tetraone-Based Covalent Organic Framework Delivers High Specific Capacity as a Li-Ion Positive Electrode.

Author

Gao H, Neale AR, Zhu Q, Bahri M, Wang X, Yang H, Xu Y, Clowes R, Browning ND, Little MA, Hardwick LJ, and Cooper AI

Abstract

Electrochemically active covalent organic frameworks (COFs) are promising electrode materials for Li-ion batteries. However, improving the specific capacities of COF-based electrodes requires materials with increased conductivity and a higher concentration of redox-active groups. Here, we designed a series of pyrene-4,5,9,10-tetraone COF (PT-COF) and carbon nanotube (CNT) composites (denoted as PT-COFX, where X = 10, 30, and 50 wt % of CNT) to address these challenges. Among the composites, PT-COF50 achieved a capacity of up to 280 mAh g -1 as normalized to the active COF material at a current density of 200 mA g -1 , which is the highest capacity reported for a COF-based composite cathode electrode to date. Furthermore, PT-COF50 exhibited excellent rate performance, delivering a capacity of 229 mAh g -1 at 5000 mA g -1 (18.5C). Using operando Raman microscopy the reversible transformation of the redox-active carbonyl groups of PT-COF was determined, which rationalizes an overall 4 e - /4 Li + redox process per pyrene-4,5,9,10-tetraone unit, accounting for its superior performance as a Li-ion battery electrode.

Published
2022
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43. Gold labelling of a green fluorescent protein (GFP)-tag inside cells using recombinant nanobodies conjugated to 2.4 nm thiolate-coated gold nanoparticles.

Author

Groysbeck N, Donzeau M, Stoessel A, Haeberle AM, Ory S, Spehner D, Schultz P, Ersen O, Bahri M, Ihiawakrim D, and Zuber G

Abstract

Advances in microscopy technology have prompted efforts to improve the reagents required to recognize specific molecules within the intracellular environment. For high-resolution electron microscopy, conjugation of selective binders originating from the immune response arsenal to gold nanoparticles (AuNPs) as contrasting agents is the method of choice to obtain labeling tools. However, conjugation of the minimal sized 15 kDa nanobody (Nb) to AuNPs remains challenging in comparison to the conjugation of 150 kDa IgG to AuNPs. Herein, effective Nb-AuNP assemblies are built using the selective and almost irreversible non-covalent associations between two peptide sequences deriving from a p53 heterotetramer domain variant. The 15 kDa GFP-binding Nb is fused to one dimerizing motif to obtain a recombinant Nb dimer with improved avidity for GFP while the other complementing dimerizing motif is equipped with thiols and grafted to a 2.4 nm substituted thiobenzoate-coordinated AuNP via thiolate exchange. After pegylation, the modified AuNPs are able to non-covalently anchor Nb dimers and the subsequent complexes demonstrate the ability to form immunogold label GFP-protein fusions within various subcellular locations. These tools open an avenue for precise localization of targets at high resolution by electron microscopy., Competing Interests: There are no conflicts to declare., (This journal is © The Royal Society of Chemistry.)

Published
2021
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44. A Cubic 3D Covalent Organic Framework with nbo Topology.

Author

Wang X, Bahri M, Fu Z, Little MA, Liu L, Niu H, Browning ND, Chong SY, Chen L, Ward JW, and Cooper AI

Abstract

The synthesis of three-dimensional (3D) covalent organic frameworks (COFs) requires high-connectivity polyhedral building blocks or the controlled alignment of building blocks. Here, we use the latter strategy to assemble square-planar cobalt(II) phthalocyanine (PcCo) units into the nbo topology by using tetrahedral spiroborate (SPB) linkages that were chosen to provide the necessary 90° dihedral angles between neighboring PcCo units. This yields a porous 3D COF, SPB-COF-DBA , with a noninterpenetrated nbo topology. SPB-COF-DBA shows high crystallinity and long-range order, with 11 resolved diffraction peaks in the experimental powder X-ray diffraction (PXRD) pattern. This well-ordered crystal lattice can also be imaged by using high-resolution transmission electron microscopy (HR-TEM). SPB-COF-DBA has cubic pores and exhibits permanent porosity with a Brunauer-Emmett-Teller (BET) surface area of 1726 m 2 g -1 .

Published
2021
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45. Precise Quantitation of PTEN by Immuno-MRM: A Tool To Resolve the Breast Cancer Biomarker Controversy.

Author

Ibrahim S, Lan C, Chabot C, Mitsa G, Buchanan M, Aguilar-Mahecha A, Elchebly M, Poetz O, Spatz A, Basik M, Batist G, Zahedi RP, and Borchers CH

Subjects
Female, Humans, Immunohistochemistry, PTEN Phosphohydrolase, Phosphatidylinositol 3-Kinases, Biomarkers, Tumor, Breast Neoplasms diagnosis
Abstract

The tumor suppressor PTEN is the main negative regulator of PI3K/AKT/mTOR signaling and is commonly found downregulated in breast cancer (BC). Conflicting data from conventional immunoassays such as immunohistochemistry (IHC) has sparked controversy about PTEN's role as a prognostic and predictive biomarker in BC, which can be largely attributed to the lack of specificity, sensitivity, and interlaboratory standardization. Here, we present a fully standardized, highly sensitive, robust microflow immuno-MRM (iMRM) assay that enables precise quantitation of PTEN concentrations in cells and fresh frozen (FF) and formalin-fixed paraffin-embedded (FFPE) tissues, down to 0.1 fmol/10 μg of extracted protein, with high interday and intraday precision (CV 6.3%). PTEN protein levels in BC PDX samples that were determined by iMRM correlate well with semiquantitative IHC and WB data. iMRM, however, allowed the precise quantitation of PTEN-even in samples that were deemed to be PTEN negative by IHC or western blot (WB)-while requiring substantially less tumor tissue than WB. This is particularly relevant because the extent of PTEN downregulation in tumors has been shown to correlate with severity. Our standardized and robust workflow includes an 11 min microflow LC-MRM analysis on a triple-quadrupole MS and thus provides a much needed tool for the study of PTEN as a potential biomarker for BC.

Published
2021
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46. Communicating assemblies of biomimetic nanocapsules.

Author

Zhou H, Huang H, Bahri M, Browning ND, Smith J, Graham M, and Shchukin D

Subjects
Adsorption, Biomimetics, Polyelectrolytes, Silicon Dioxide, Nanocapsules
Abstract

Communication assemblies between biomimetic nanocapsules in a 3D closed system with self-regulating and self-organization functionalities were demonstrated for the first time. Two types of biomimetic nanocapsules, TiO2/polydopamine capsules and SiO2/polyelectrolytes capsules with different stimuli-responsive properties were prepared and leveraged to sense the external stimulus, transmit chemical signaling, and autonomic communication-controlled release of active cargos. The capsules have clear core-shell structures with average diameters of 30 nm and 25 nm, respectively. The nitrogen adsorption-desorption isotherms and thermogravimetric analysis displayed their massive pore structures and encapsulation capacity of 32% of glycine pH buffer and 68% of benzotriazole, respectively. Different from the direct release mode of the single capsule, the communication assemblies show an autonomic three-stage release process with a "jet lag" feature, showing the internal modulation ability of self-controlled release efficiency. The control overweight ratios of capsules influences on communication-release interaction between capsules. The highest communication-release efficiency (89.6% of benzotriazole) was achieved when the weight ratio of TiO2/polydopamine/SiO2/polyelectrolytes capsules was 5 : 1 or 10 : 1. Communication assemblies containing various types of nanocapsules can autonomically perform complex tasks in a biomimetic fashion, such as cascaded amplification and multidirectional communication platforms in bioreactors.

Published
2021
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47. The origin of the high electrochemical activity of pseudo-amorphous iridium oxides.

Author

Elmaalouf M, Odziomek M, Duran S, Gayrard M, Bahri M, Tard C, Zitolo A, Lassalle-Kaiser B, Piquemal JY, Ersen O, Boissière C, Sanchez C, Giraud M, Faustini M, and Peron J

Abstract

Combining high activity and stability, iridium oxide remains the gold standard material for the oxygen evolution reaction in acidic medium for green hydrogen production. The reasons for the higher electroactivity of amorphous iridium oxides compared to their crystalline counterpart is still the matter of an intense debate in the literature and, a comprehensive understanding is needed to optimize its use and allow for the development of water electrolysis. By producing iridium-based mixed oxides using aerosol, we are able to decouple the electronic processes from the structural transformation, i.e. Ir oxidation from IrO 2 crystallization, occurring upon calcination. Full characterization using in situ and ex situ X-ray absorption spectroscopy, X-ray photoelectron spectroscopy, X-ray diffraction and transmission electron microscopy allows to unambiguously attribute their high electrochemical activity to structural features and rules out the iridium oxidation state as a critical parameter. This study indicates that short-range ordering, corresponding to sub-2nm crystal size for our samples, drives the activity independently of the initial oxidation state and composition of the calcined iridium oxides.

Published
2021
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48. In situ STEM study on the morphological evolution of copper-based nanoparticles during high-temperature redox reactions.

Author

Sharna S, Bahri M, Bouillet C, Rouchon V, Lambert A, Gay AS, Chiche D, and Ersen O

Abstract

Despite the broad relevance of copper nanoparticles in industrial applications, the fundamental understanding of oxidation and reduction of copper at the nanoscale is still a matter of debate and remains within the realm of bulk or thin film-based systems. Moreover, the reported studies on nanoparticles vary widely in terms of experimental parameters and are predominantly carried out using either ex situ observation or environmental transmission electron microscopy in a gaseous atmosphere at low pressure. Hence, dedicated studies in regards to the morphological transformations and structural transitions of copper-based nanoparticles at a wider range of temperatures and under industrially relevant pressure would provide valuable insights to improve the application-specific material design. In this paper, copper nanoparticles are studied using in situ Scanning Transmission Electron Microscopy to discern the transformation of the nanoparticles induced by oxidative and reductive environments at high temperatures. The nanoparticles were subjected to a temperature of 150 °C to 900 °C at 0.5 atm partial pressure of the reactive gas, which resulted in different modes of copper mobility both within the individual nanoparticles and on the surface of the support. Oxidation at an incremental temperature revealed the dependency of the nanoparticles' morphological evolution on their initial size as well as reaction temperature. After the formation of an initial thin layer of oxide, the nanoparticles evolved to form hollow oxide shells. The kinetics of formation of hollow particles were simulated using a reaction-diffusion model to determine the activation energy of diffusion and temperature-dependent diffusion coefficient of copper in copper oxide. Upon further temperature increase, the hollow shell collapsed to form compact and facetted nanoparticles. Reduction of copper oxide was carried out at different temperatures starting from various oxide phase morphologies. A reduction mechanism is proposed based on the dynamic of the reduction-induced fragmentation of the oxide phase. In a broader perspective, this study offers insights into the mobility of the copper phase during its oxidation-reduction process in terms of microstructural evolution as a function of nanoparticle size, reaction gas, and temperature.

Published
2021
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49. Polyarginine Decorated Polydopamine Nanoparticles With Antimicrobial Properties for Functionalization of Hydrogels.

Author

Muller C, Berber E, Lutzweiler G, Ersen O, Bahri M, Lavalle P, Ball V, Vrana NE, and Barthes J

Abstract

Polydopamine (PDA) nanoparticles are versatile structures that can be stabilized with proteins. In this study, we have demonstrated the feasibility of developing PDA/polypeptides complexes in the shape of nanoparticles. The polypeptide can also render the nanoparticle functional. Herein, we have developed antimicrobial nanoparticles with a narrow size distribution by decorating the polydopamine particles with a chain-length controlled antimicrobial agent Polyarginine (PAR). The obtained particles were 3.9 ± 1.7 nm in diameter and were not cytotoxic at 1:20 dilution and above. PAR-decorated nanoparticles have exhibited a strong antimicrobial activity against S. aureus , one of the most common pathogen involved in implant infections. The minimum inhibitory concentration is 5 times less than the cytotoxicity levels. Then, PAR-decorated nanoparticles have been incorporated into gelatin hydrogels used as a model of tissue engineering scaffolds. These nanoparticles have given hydrogels strong antimicrobial properties without affecting their stability and biocompatibility while improving their mechanical properties (modulus of increased storage). Decorated polydopamine nanoparticles can be a versatile tool for the functionalization of hydrogels in regenerative medicine applications by providing bioactive properties., (Copyright © 2020 Muller, Berber, Lutzweiler, Ersen, Bahri, Lavalle, Ball, Vrana and Barthes.)

Published
2020
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50. Phase selective synthesis of nickel silicide nanocrystals in molten salts for electrocatalysis of the oxygen evolution reaction.

Author

Kumar R, Bahri M, Song Y, Gonell F, Thomas C, Ersen O, Sanchez C, Laberty-Robert C, and Portehault D

Abstract

We report phase selective synthesis of intermetallic nickel silicide nanocrystals in inorganic molten salts. NiSi and Ni2Si nanocrystals are obtained by reacting a nickel(ii) salt and sodium silicide Na4Si4 in the molten LiI-KI inorganic eutectic salt mixture. We report that nickel silicide nanocrystals are precursors to active electrocatalysts in the oxygen evolution reaction (OER) and may be low-cost alternatives to iridium-based electrocatalysts.

Published
2020
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