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1. Oxide‐Based Solid‐State Batteries: A Perspective on Composite Cathode Architecture

Author

Ren, Yaoyu, Danner, Timo, Moy, Alexandra, Finsterbusch, M., Finsterbusch, Martin, Hamann, Tanner, Dippell, Jan, Fuchs, Till, Müller, Marius, Hoft, Ricky, Weber, André, Curtiss, Larry A., Zapol, Peter, Klenk, Matthew, Ngo, Anh T., Barai, Pallab, Wood, Brandon C., Shi, Rongpei, Wan, Liwen F., Heo, Tae Wook, Engels, Martin, Nanda, Jagjit, Richter, Felix H., Latz, Arnulf, Srinivasan, Venkat, Janek, Jürgen, Sakamoto, Jeff, Wachsman, Eric D., and Fattakhova-Rohlfing, Dina

Subjects
oxide solid electrolyte, ceramic cathode/electrolyte interface, solid state battery, grain boundaries, ddc:620, Engineering & allied operations
Abstract

The garnet-type phase Li$_7$La$_3$Zr$_2$O$_{12}$ (LLZO) attracts significant attention as an oxide solid electrolyte to enable safe and robust solid-state batteries (SSBs) with potentially high energy density. However, while significant progress has been made in demonstrating compatibility with Li metal, integrating LLZO into composite cathodes remains a challenge. The current perspective focuses on the critical issues that need to be addressed to achieve the ultimate goal of an all-solid-state LLZO-based battery that delivers safety, durability, and pack-level performance characteristics that are unobtainable with state-of-the-art Li-ion batteries. This perspective complements existing reviews of solid/solid interfaces with more emphasis on understanding numerous homo- and heteroionic interfaces in a pure oxide-based SSB and the various phenomena that accompany the evolution of the chemical, electrochemical, structural, morphological, and mechanical properties of those interfaces during processing and operation. Finally, the insights gained from a comprehensive literature survey of LLZO–cathode interfaces are used to guide efforts for the development of LLZO-based SSBs.

Published
2022
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2. Leukocyte tetraspanin CD53 restrains alpha3integrin mobilization and facilitates cytoskeletal remodeling and transmigration in mice.

Author

Wright M.D., Dankers W., Elgass K.D., Wicks I.P., Kwok H.F., Hickey M.J., Yeung L., Anderson J.M.L., Wee J.L., Demaria M.C., Finsterbusch M., Liu Y.S., Hall P., Smith B.C., Wright M.D., Dankers W., Elgass K.D., Wicks I.P., Kwok H.F., Hickey M.J., Yeung L., Anderson J.M.L., Wee J.L., Demaria M.C., Finsterbusch M., Liu Y.S., Hall P., and Smith B.C.

Abstract

The importance of tetraspanin proteins in regulating migration has been demonstrated in many diverse cellular systems. However, the function of the leukocyte-restricted tetraspanin CD53 remains obscure. We therefore hypothesized that CD53 plays a role in regulating leukocyte recruitment and tested this hypothesis by examining responses of CD53-deficient mice to a range of inflammatory stimuli. Deletion of CD53 significantly reduced neutrophil recruitment to the acutely inflamed peritoneal cavity. Intravital microscopy revealed that in response to several inflammatory and chemotactic stimuli, absence of CD53 had only minor effects on leukocyte rolling and adhesion in postcapillary venules. In contrast, Cd53-/- mice showed a defect in leukocyte transmigration induced by TNF, CXCL1 and CCL2, and a reduced capacity for leukocyte retention on the endothelial surface under shear flow. Comparison of adhesion molecule expression in wild-type and Cd53-/- neutrophils revealed no alteration in expression of b2 integrins, whereas L-selectin was almost completely absent from Cd53-/- neutrophils. In addition, Cd53-/- neutrophils showed defects in activation-induced cytoskeletal remodeling and translocation to the cell periphery, responses necessary for efficient transendothelial migration, as well as increased a3 integrin expression. These alterations were associated with effects on inflammation, so that in Cd53-/- mice, the onset of neutrophil-dependent serum-induced arthritis was delayed. Together, these findings demonstrate a role for tetraspanin CD53 in promotion of neutrophil transendothelial migration and inflammation, associated with CD53-mediated regulation of L-selectin expression, attachment to the endothelial surface, integrin expression and trafficking, and cytoskeletal function.Copyright © 2020 by The American Association of Immunologists, Inc.

Published
2020

6. Deoxyribonuclease 1 reduces pathogenic effects of cigarette smoke exposure in the lung.

Author

Holdsworth S.R., O'Sullivan K.M., Callaghan J., Dousha L., Thomas B., Ruwanpura S., Farmer M.W., Jennings B.R., Finsterbusch M., Brooks G., Selemidis S., Anderson G.P., Bardin P.G., Lim S., King P.T., Sharma R., Holdsworth S.R., O'Sullivan K.M., Callaghan J., Dousha L., Thomas B., Ruwanpura S., Farmer M.W., Jennings B.R., Finsterbusch M., Brooks G., Selemidis S., Anderson G.P., Bardin P.G., Lim S., King P.T., and Sharma R.

Abstract

Our aim was to investigate if deoxyribonuclease (DNase) 1 is a potential therapeutic agent to reduce pathogenic effects of cigarette smoke exposure in the lung. Cigarette smoke causes protease imbalance with excess production of proteases, which is a key process in the pathogenesis of emphysema. The mechanisms responsible for this effect are not well-defined. Our studies demonstrate both in vitro and in vivo that cigarette smoke significantly increases the expression of neutrophil and macrophage extracellular traps with coexpression of the pathogenic proteases, neutrophil elastase and matrix metalloproteinases 9 and 12. This response to cigarette smoke was significantly reduced by the addition of DNase 1, which also significantly decreased macrophage numbers and lung proteolysis. DNase 1, a treatment currently in clinical use, can diminish the pathogenic effects of cigarette smoke.

Published
2019

7. Platelet retention in inflamed glomeruli occurs via selective prolongation of interactions with immune cells.

Author

Hickey M.J., Finsterbusch M., Norman M.U., Hall P., Kitching A.R., Hickey M.J., Finsterbusch M., Norman M.U., Hall P., and Kitching A.R.

Abstract

Platelet-leukocyte interactions promote acute glomerulonephritis. However, neither the nature of the interactions between platelets and immune cells nor the capacity of platelets to promote leukocyte activation has been characterized in this condition. We used confocal intravital microscopy to define the interactions of platelets with neutrophils, monocytes, and endothelial cells in glomerular capillaries in mice. In the absence of inflammation, platelets underwent rapid on/off interactions with immune cells. During glomerulonephritis induced by in situ immune complex formation, platelets that interacted with neutrophils or monocytes, but not with other intraglomerular cells, were retained in the glomerulus for prolonged durations. Depletion of platelets inhibited both neutrophil recruitment and activation. Inhibition of platelet activating factor reduced neutrophil recruitment without impacting reactive oxygen species generation, while blocking CXC chemokine ligand 7 (CXCL7) reduced both responses. In contrast, inhibition of the adenosine diphosphate and thromboxane A2 pathways inhibited neutrophil reactive oxygen species generation without affecting neutrophil adhesion. Thus, platelet retention in glomerular capillaries following immune complex deposition stems from prolongation of platelet interactions with immune cells but not other substrates. Pro-inflammatory mediators play divergent roles in promoting neutrophil retention and activation in glomerular capillaries.Copyright © 2018 International Society of Nephrology

Published
2019

8. Effector CD4+ T cells recognize intravascular antigen presented by patrolling monocytes.

Author

Li S., Westhorpe C.L.V., Ursula Norman M., Hall P., Snelgrove S.L., Finsterbusch M., Li A., Lo C., Tan Z.H., Kitching A.R., Hickey M.J., Nilsson S.K., Li S., Westhorpe C.L.V., Ursula Norman M., Hall P., Snelgrove S.L., Finsterbusch M., Li A., Lo C., Tan Z.H., Kitching A.R., Hickey M.J., and Nilsson S.K.

Abstract

Although effector CD4+ T cells readily respond to antigen outside the vasculature, how they respond to intravascular antigens is unknown. Here we show the process of intravascular antigen recognition using intravital multiphoton microscopy of glomeruli. CD4+ T cells undergo intravascular migration within uninflamed glomeruli. Similarly, while MHCII is not expressed by intrinsic glomerular cells, intravascular MHCII-expressing immune cells patrol glomerular capillaries, interacting with CD4+ T cells. Following intravascular deposition of antigen in glomeruli, effector CD4+ T-cell responses, including NFAT1 nuclear translocation and decreased migration, are consistent with antigen recognition. Of the MHCII+ immune cells adherent in glomerular capillaries, only monocytes are retained for prolonged durations. These cells can also induce T-cell proliferation in vitro. Moreover, monocyte depletion reduces CD4+ T-cell-dependent glomerular inflammation. These findings indicate that MHCII+ monocytes patrolling the glomerular microvasculature can present intravascular antigen to CD4+ T cells within glomerular capillaries, leading to antigen-dependent inflammation.Copyright © 2018 The Author(s).

Published
2018

9. Effector CD4+ T cells recognize intravascular antigen presented by patrolling monocytes

Author

Westhorpe, CLV, Norman, MU, Hall, P, Snelgrove, SL, Finsterbusch, M, Li, A, Lo, C, Tan, ZH, Li, S, Nilsson, SK, Kitching, AR, Hickey, MJ, Westhorpe, CLV, Norman, MU, Hall, P, Snelgrove, SL, Finsterbusch, M, Li, A, Lo, C, Tan, ZH, Li, S, Nilsson, SK, Kitching, AR, and Hickey, MJ

Abstract

Although effector CD4+ T cells readily respond to antigen outside the vasculature, how they respond to intravascular antigens is unknown. Here we show the process of intravascular antigen recognition using intravital multiphoton microscopy of glomeruli. CD4+ T cells undergo intravascular migration within uninflamed glomeruli. Similarly, while MHCII is not expressed by intrinsic glomerular cells, intravascular MHCII-expressing immune cells patrol glomerular capillaries, interacting with CD4+ T cells. Following intravascular deposition of antigen in glomeruli, effector CD4+ T-cell responses, including NFAT1 nuclear translocation and decreased migration, are consistent with antigen recognition. Of the MHCII+ immune cells adherent in glomerular capillaries, only monocytes are retained for prolonged durations. These cells can also induce T-cell proliferation in vitro. Moreover, monocyte depletion reduces CD4+ T-cell-dependent glomerular inflammation. These findings indicate that MHCII+ monocytes patrolling the glomerular microvasculature can present intravascular antigen to CD4+ T cells within glomerular capillaries, leading to antigen-dependent inflammation.

Published
2018

11. Imaging leukocyte responses in the kidney.

Author

Finsterbusch M., Hickey M.J., Kitching A.R., Finsterbusch M., Hickey M.J., and Kitching A.R.

Abstract

The kidney can be negatively affected by a range of innate and adaptive immune responses, resulting in alterations in the functions of the kidney and, in some cases, progression to renal failure. In many of these responses, infiltration of blood-borne leukocytes into the kidney is central to the response. In addition, a large population of mononuclear phagocytes resident in the kidney can modulate these responses. A great deal of research has investigated both the mechanisms of leukocyte recruitment to the kidney and the actions of immune cells resident within the kidney. Because of the dynamic nature of the processes whereby leukocytes enter sites of inflammation, in vivo imaging has been one of the key approaches used for understanding leukocyte recruitment as it occurs throughout the body, and this is also true for kidney. However, imaging this organ and its complicated microvasculature during different forms of renal pathology presents a unique set of challenges. In this review, we examine the approaches used for intravital imaging of the kidney and summarize the insights gained from these studies regarding the mechanisms of leukocyte entry into the kidney during inflammation and the actions of immune cells within this organ.Copyright © 2016 Wolters Kluwer Health, Inc. All rights reserved.

Published
2017

12. Deoxyribonuclease 1 reduces pathogenic effects of cigarette smoke exposure in the lung

Author

King, PT, Sharma, R, O'Sullivan, KM, Callaghan, J, Dousha, L, Thomas, B, Ruwanpura, S, Lim, S, Farmer, MW, Jennings, BR, Finsterbusch, M, Brooks, G, Selemidis, S, Anderson, GP, Holdsworth, SR, Bardin, PG, King, PT, Sharma, R, O'Sullivan, KM, Callaghan, J, Dousha, L, Thomas, B, Ruwanpura, S, Lim, S, Farmer, MW, Jennings, BR, Finsterbusch, M, Brooks, G, Selemidis, S, Anderson, GP, Holdsworth, SR, and Bardin, PG

Abstract

Our aim was to investigate if deoxyribonuclease (DNase) 1 is a potential therapeutic agent to reduce pathogenic effects of cigarette smoke exposure in the lung. Cigarette smoke causes protease imbalance with excess production of proteases, which is a key process in the pathogenesis of emphysema. The mechanisms responsible for this effect are not well-defined. Our studies demonstrate both in vitro and in vivo that cigarette smoke significantly increases the expression of neutrophil and macrophage extracellular traps with coexpression of the pathogenic proteases, neutrophil elastase and matrix metalloproteinases 9 and 12. This response to cigarette smoke was significantly reduced by the addition of DNase 1, which also significantly decreased macrophage numbers and lung proteolysis. DNase 1, a treatment currently in clinical use, can diminish the pathogenic effects of cigarette smoke.

Published
2017

13. Monocytes contribute to neutrophil-dependent kidney injury in acute glomerulonephritis.

Author

Kitching R.A., Finsterbusch M., Hall P., Hickey M.J., Li A., Kitching R.A., Finsterbusch M., Hall P., Hickey M.J., and Li A.

Abstract

Glomerulonephritis is a leading cause of end-stage renal failure, a condition characterised by injurious inflammation of glomeruli. We recently showed that monocytes, similar to neutrophils, constitutively migrate within glomerular capillaries. The aim of this study was to investigate the contribution of monocytes to the pathology of acute glomerulonephritis. Using multiphoton and spinning disk confocal intravital microscopy, leukocyte behaviour was examined in the mouse kidney in a model of acute glomerulonephritis (using anti-glomerular basement membrane (GBM) antibodies). In this model, monocyte depletion reduced renal injury as assessed by albuminuria. Neutrophil recruitment, dwell time and the number of reactive oxygen species (ROS)-producing neutrophils were also diminished following monocyte depletion, suggesting a role for intercellular cross-talk between monocytes and neutrophils in mediating glomerular injury. Consistent with this, monocytes and neutrophils were seen to undergo cell-cell interactions in the glomerular microvasculature, and these interactions were prolonged during anti-GBM Ab-induced inflammation. Notably, neutrophils that underwent interactions with monocytes showed longer dwell times and were more likely to produce ROS relative to noninteracting neutrophils. In addition, renal monocytes, but not neutrophils, displayed TNF production upon inflammation as detected via flow cytometry, and TNF inhibition reduced neutrophil dwell time and ROS production, and renal injury. Together, our data indicate an important role for monocytes in mediating neutrophil recruitment, activation and triggering harmful neutrophil-dependent tissue damage. Moreover, evidence indicates that this response is associated with interactions between monocytes and neutrophils and promoted by monocyte-derived TNF.

Published
2016

14. Patrolling monocytes promote intravascular neutrophil activation and glomerular injury in the acutely inflamed glomerulus.

Author

Finsterbusch M., Hickey M.J., Kubes P., Westhorpe C.L.V., Devi S., Li A., Hall P., Kitching A.R., Finsterbusch M., Hickey M.J., Kubes P., Westhorpe C.L.V., Devi S., Li A., Hall P., and Kitching A.R.

Abstract

Nonclassical monocytes undergo intravascular patrolling in blood vessels, positioning them ideally to coordinate responses to inflammatory stimuli. Under some circumstances, the actions of monocytes have been shown to involve promotion of neutrophil recruitment. However, the mechanisms whereby patrolling monocytes control the actions of neutrophils in the circulation are unclear. Here, we examined the contributions of monocytes to antibody- and neutrophildependent inflammation in a model of in situ immune complexmediated glomerulonephritis. Multiphoton and spinning disk confocal intravital microscopy revealed that monocytes patrol both uninflamed and inflamed glomeruli using beta2 and alpha4 integrins and CX3CR1. Monocyte depletion reduced glomerular injury, demonstrating that these cells promote inappropriate inflammation in this setting. Monocyte depletion also resulted in reductions in neutrophil recruitment and dwell time in glomerular capillaries and in reactive oxygen species (ROS) generation by neutrophils, suggesting a role for cross-talk between monocytes and neutrophils in induction of glomerulonephritis. Consistent with this hypothesis, patrolling monocytes and neutrophils underwent prolonged interactions in glomerular capillaries, with the duration of these interactions increasing during inflammation. Moreover, neutrophils that interacted with monocytes showed increased retention and a greater propensity for ROS generation in the glomerulus. Also, renal patrolling monocytes, but not neutrophils, produced TNF during inflammation, and TNF inhibition reduced neutrophil dwell time and ROS production, as well as renal injury. These findings show that monocytes and neutrophils undergo interactions within the glomerular microvasculature. Moreover, evidence indicates that, in response to an inflammatory stimulus, these interactions allow monocytes to promote neutrophil recruitment and activation within the glomerular microvasculature, leading to neutrophil-depen

Published
2016

15. Intravascular patrolling monocytes initiate CD4+ T cell-mediated inflammation in the glomerular microvasculature.

Author

Westhorpe C., Hall P., Li A., Kitching A.R., Finsterbusch M., Snelgrove S., Lo C., Hickey M., Westhorpe C., Hall P., Li A., Kitching A.R., Finsterbusch M., Snelgrove S., Lo C., and Hickey M.

Abstract

Autoimmune glomerulonephritis is a leading cause of end-stage renal failure. Effector CD4+ T cells can rapidly induce glomerular inflammation in an antigen-dependent manner. However it is unclear how these cells recognise antigens within the glomerular microvasculature. The aim of this study was to investigate the mechanisms by which effector CD4+ T cells initiate glomerular inflammation. Intravital multiphoton microscopy of kidneys of MHCII-eGFP mice revealed that in the absence of inflammation, intraglomerular expression of MHCII was restricted to circulating leukocytes. Following transfer of activated OT-II (CD4+) T cells, both intravascular MHCII+ leukocytes and effector CD4+ T cells underwent periods of retention and migration in the glomerular capillaries and regularly interacted with each other. To induce antigen-dependent glomerular inflammation, the OT-II peptide pOVA323-339 was deposited in glomeruli via conjugation to 8D1, a mAb specific for the glomerular basement membrane. Mice administered the 8D1/pOVA conjugate displayed increased retention of activated CD4+ T cells within 2 hours, indicating local antigen recognition. Of the circulating MHCII-expressing leukocytes, both B cells and monocytes underwent retention in the glomerular capillaries, although MHCII+ monocytes were retained in the glomerulus for significantly longer periods. Furthermore, while the absence of B cells did not affect CD4+ T cell-dependent inflammation, monocyte depletion significantly reduced this response. These data indicate that intravascular MHCII+ patrolling monocytes initiate CD4+ T cell responses in the glomerular microcirculation and this can result in glomerular inflammation.

Published
2016

19. The Li battery digital twin – Combining 4D modelling, electro-chemistry, neutron, and ion-beam techniques.

Author

Möller, S., Schwab, C., Seidlmayer, S., Clausnitzer, M., Rosen, M., Hörmann, J., Mann, M., Cannavo, A., Ceccio, G., Vacik, J., Mouzakka, K.F., Danner, T., Latz, A., Gilles, R., and Finsterbusch, M.

Subjects
*DIGITAL twins, *SOLID state batteries, *NEUTRONS, *DEPTH profiling, *LITHIUM-ion batteries, *LITHIUM cells, *SURFACE reactions
Abstract

Knowledge driven materials and component design is key for improving the performance of Li-ion batteries and solving the remaining hurdles for next-generation battery concepts like all-solid-state batteries. While the spatial and time dependent distribution of Li would help elucidating performance bottlenecks and degradation phenomena, only a few analysis techniques are available, due to the unique nature of Li, especially as Li+-ion. In fact, only two non-destructive techniques with good time resolution can combine spatial information with absolute quantification of Li, one being Neutron Depth Profiling (NDP), the other Ion-Beam-Analysis (IBA). While both exploit nuclear processes, the information gained is complementary. NDP provides high depth resolution, but only limited lateral resolution, whereas IBA has high lateral, but only limited depth resolution. In this study, we benchmark both techniques for the first time using a set of Li-battery test-samples and show the strengths and synergies of both techniques. The derived information regarding the depth dependent Li-concentration is then used to validate a microstructure resolved continuum model of charge, discharge, and relaxation behavior of the cells and electro-chemical analysis. This fundamental work demonstrates a new route to optimize Li batteries on material and component level by combining advanced characterization and digital twin modelling. • LLZO + LCO ASBs analyzed using MeV Ion-Beam-Analysis + Neutron-Depth-Profiling. • Both methods results agree to each other the SoC dependent Li concentrations. • Surface near reactions of LLZO redistribute, but conserve the total Li content. • Digital twin modelling based on 3D cell reconstruction shows relaxation within ∼1h. • Li concentration is ∼20 % above nominal value, reduces by high sintering temperature. [ABSTRACT FROM AUTHOR]

Published
2024
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20. Direct Precursor Route for the Fabrication of LLZO Composite Cathodes for Solid-State Batteries.

Author

Kiyek V, Schwab C, Scheld WS, Roitzheim C, Lindner A, Menesklou W, Finsterbusch M, Fattakhova-Rohlfing D, and Guillon O

Abstract

Solid-state batteries based on Li 7 La 3 Zr 2 O 12 (LLZO) garnet electrolyte are a robust and safe alternative to conventional lithium-ion batteries. However, the large-scale implementation of ceramic composite cathodes is still challenging due to a complex multistep manufacturing process. A new one-step route for the direct synthesis of LLZO during the manufacturing of LLZO/LiCoO 2 (LCO) composite cathodes based on cheap precursors and utilizing the industrially established tape casting process is presented. It is shown that Al, Ta:LLZO can be formed directly in the presence of LCO from metal oxide precursors (LiOH, La 2 O 3 , ZrO 2 , Al 2 O 3 , and Ta 2 O 5 ) by heating to 1050 °C, eliminating the time- and energy-consuming synthesis of preformed LLZO powders. In addition, performance-optimized gradient microstructures can be produced by sequential casting of slurries with different compositions, resulting in dense and flat phase-pure cathodes without unwanted ion interdiffusion or secondary phase formation. Freestanding cathodes with a thickness of 85 µm, a relative density of 95%, and an industrial relevant LCO loading of 15 mg show an initial capacity of 82 mAh g -1 (63% of the theoretical capacity of LCO) in a solid-state cell with Li metal anodes, which is comparable to conventional LCO/LLZO cathodes and can be further improved in the future., (© 2024 The Author(s). Advanced Science published by Wiley‐VCH GmbH.)

Published
2024
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21. Analysis of Rutherford backscattering spectra with CNN-GRU mixture density network.

Author

Muzakka KF, Möller S, Kesselheim S, Ebert J, Bazarova A, Hoffmann H, Starke S, and Finsterbusch M

Abstract

Ion Beam Analysis (IBA) utilizing MeV ion beams provides valuable insights into surface elemental composition across the entire periodic table. While ion beam measurements have advanced towards high throughput for mapping applications, data analysis has lagged behind due to the challenges posed by large volumes of data and multiple detectors providing diverse analytical information. Traditional physics-based fitting algorithms for these spectra can be time-consuming and prone to local minima traps, often taking days or weeks to complete. This study presents an approach employing a Mixture Density Network (MDN) to model the posterior distribution of Elemental Depth Profiles (EDP) from input spectra. Our MDN architecture includes an encoder module (EM), leveraging a Convolutional Neural Network-Gated Recurrent Unit (CNN-GRU), and a Mixture Density Head (MDH) employing a Multi-Layer Perceptron (MLP). Validation across three datasets with varying complexities demonstrates that for simple and intermediate cases, the MDN performs comparably to the conventional automatic fitting method (Autofit). However, for more complex datasets, Autofit still outperforms the MDN. Additionally, our integrated approach, combining MDN with the automatic fit method, significantly enhances accuracy while still reducing computational time, offering a promising avenue for improved analysis in IBA., (© 2024. The Author(s).)

Published
2024
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22. Evaluation of Scalable Synthesis Methods for Aluminum-Substituted Li 7 La 3 Zr 2 O 12 Solid Electrolytes.

Author

Mann M, Küpers M, Häuschen G, Finsterbusch M, Fattakhova-Rohlfing D, and Guillon O

Abstract

Solid electrolyte is the key component in all-solid-state batteries (ASBs). It is required in electrodes to enhance Li-conductivity and can be directly used as a separator. With its high Li-conductivity and chemical stability towards metallic lithium, lithium-stuffed garnet material Li 7 La 3 Zr 2 O 12 (LLZO) is considered one of the most promising solid electrolyte materials for high-energy ceramic ASBs. However, in order to obtain high conductivities, rare-earth elements such as tantalum or niobium are used to stabilize the highly conductive cubic phase. This stabilization can also be obtained via high levels of aluminum, reducing the cost of LLZO but also reducing processability and the Li-conductivity. To find the sweet spot for a potential market introduction of garnet-based solid-state batteries, scalable and industrially usable syntheses of LLZO with high processability and good conductivity are indispensable. In this study, four different synthesis methods (solid-state reaction (SSR), solution-assisted solid-state reaction (SASSR), co-precipitation (CP), and spray-drying (SD)) were used and compared for the synthesis of aluminum-substituted LLZO (Al:LLZO, Li 6.4 Al 0.2 La 3 Zr 2 O 12 ), focusing on electrochemical performance on the one hand and scalability and environmental footprint on the other hand. The synthesis was successful via all four methods, resulting in a Li-ion conductivity of 2.0-3.3 × 10 -4 S/cm. By using wet-chemical synthesis methods, the calcination time could be reduced from two calcination steps for 20 h at 850 °C and 1000 °C to only 1 h at 1000 °C for the spray-drying method. We were able to scale the synthesis up to a kg-scale and show the potential of the different synthesis methods for mass production.

Published
2021
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23. Platelet retention in inflamed glomeruli occurs via selective prolongation of interactions with immune cells.

Author

Finsterbusch M, Norman MU, Hall P, Kitching AR, and Hickey MJ

Subjects
Animals, Blood Platelets metabolism, Capillaries cytology, Capillaries diagnostic imaging, Capillaries immunology, Disease Models, Animal, Glomerulonephritis diagnostic imaging, Glomerulonephritis pathology, Humans, Inflammation Mediators immunology, Inflammation Mediators metabolism, Intravital Microscopy, Kidney Glomerulus blood supply, Kidney Glomerulus immunology, Lymphocyte Activation immunology, Male, Mice, Mice, Transgenic, Microscopy, Confocal, Monocytes immunology, Neutrophil Infiltration immunology, Neutrophils metabolism, Blood Platelets immunology, Cell Communication immunology, Glomerulonephritis immunology, Kidney Glomerulus cytology, Neutrophils immunology
Abstract

Platelet-leukocyte interactions promote acute glomerulonephritis. However, neither the nature of the interactions between platelets and immune cells nor the capacity of platelets to promote leukocyte activation has been characterized in this condition. We used confocal intravital microscopy to define the interactions of platelets with neutrophils, monocytes, and endothelial cells in glomerular capillaries in mice. In the absence of inflammation, platelets underwent rapid on/off interactions with immune cells. During glomerulonephritis induced by in situ immune complex formation, platelets that interacted with neutrophils or monocytes, but not with other intraglomerular cells, were retained in the glomerulus for prolonged durations. Depletion of platelets inhibited both neutrophil recruitment and activation. Inhibition of platelet activating factor reduced neutrophil recruitment without impacting reactive oxygen species generation, while blocking CXC chemokine ligand 7 (CXCL7) reduced both responses. In contrast, inhibition of the adenosine diphosphate and thromboxane A2 pathways inhibited neutrophil reactive oxygen species generation without affecting neutrophil adhesion. Thus, platelet retention in glomerular capillaries following immune complex deposition stems from prolongation of platelet interactions with immune cells but not other substrates. Pro-inflammatory mediators play divergent roles in promoting neutrophil retention and activation in glomerular capillaries., (Copyright © 2018 International Society of Nephrology. Published by Elsevier Inc. All rights reserved.)

Published
2019
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24. Effector CD4 + T cells recognize intravascular antigen presented by patrolling monocytes.

Author

Westhorpe CLV, Norman MU, Hall P, Snelgrove SL, Finsterbusch M, Li A, Lo C, Tan ZH, Li S, Nilsson SK, Kitching AR, and Hickey MJ

Subjects
Animals, B-Lymphocytes immunology, CD4-Positive T-Lymphocytes physiology, Capillaries immunology, Cell Adhesion, Cell Movement, Glomerulonephritis immunology, Histocompatibility Antigens Class II metabolism, Lymphocyte Activation, Male, Mice, Mice, Inbred C57BL, Mice, Knockout, Mice, Transgenic, NFATC Transcription Factors metabolism, Antigen Presentation, CD4-Positive T-Lymphocytes immunology, Kidney Glomerulus blood supply, Kidney Glomerulus immunology, Monocytes immunology
Abstract

Although effector CD4 + T cells readily respond to antigen outside the vasculature, how they respond to intravascular antigens is unknown. Here we show the process of intravascular antigen recognition using intravital multiphoton microscopy of glomeruli. CD4 + T cells undergo intravascular migration within uninflamed glomeruli. Similarly, while MHCII is not expressed by intrinsic glomerular cells, intravascular MHCII-expressing immune cells patrol glomerular capillaries, interacting with CD4 + T cells. Following intravascular deposition of antigen in glomeruli, effector CD4 + T-cell responses, including NFAT1 nuclear translocation and decreased migration, are consistent with antigen recognition. Of the MHCII + immune cells adherent in glomerular capillaries, only monocytes are retained for prolonged durations. These cells can also induce T-cell proliferation in vitro. Moreover, monocyte depletion reduces CD4 + T-cell-dependent glomerular inflammation. These findings indicate that MHCII + monocytes patrolling the glomerular microvasculature can present intravascular antigen to CD4 + T cells within glomerular capillaries, leading to antigen-dependent inflammation.

Published
2018
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25. Deoxyribonuclease 1 reduces pathogenic effects of cigarette smoke exposure in the lung.

Author

King PT, Sharma R, O'Sullivan KM, Callaghan J, Dousha L, Thomas B, Ruwanpura S, Lim S, Farmer MW, Jennings BR, Finsterbusch M, Brooks G, Selemidis S, Anderson GP, Holdsworth SR, and Bardin PG

Subjects
Emphysema metabolism, Emphysema pathology, Humans, Leukocyte Elastase metabolism, Lung metabolism, Macrophages metabolism, Macrophages pathology, Matrix Metalloproteinase 9 metabolism, Neutrophils metabolism, Neutrophils pathology, Protective Factors, Proteolysis, Cigarette Smoking adverse effects, Deoxyribonuclease I metabolism, Emphysema etiology, Lung pathology
Abstract

Our aim was to investigate if deoxyribonuclease (DNase) 1 is a potential therapeutic agent to reduce pathogenic effects of cigarette smoke exposure in the lung. Cigarette smoke causes protease imbalance with excess production of proteases, which is a key process in the pathogenesis of emphysema. The mechanisms responsible for this effect are not well-defined. Our studies demonstrate both in vitro and in vivo that cigarette smoke significantly increases the expression of neutrophil and macrophage extracellular traps with coexpression of the pathogenic proteases, neutrophil elastase and matrix metalloproteinases 9 and 12. This response to cigarette smoke was significantly reduced by the addition of DNase 1, which also significantly decreased macrophage numbers and lung proteolysis. DNase 1, a treatment currently in clinical use, can diminish the pathogenic effects of cigarette smoke.

Published
2017
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26. Patrolling monocytes promote intravascular neutrophil activation and glomerular injury in the acutely inflamed glomerulus.

Author

Finsterbusch M, Hall P, Li A, Devi S, Westhorpe CL, Kitching AR, and Hickey MJ

Subjects
Animals, CX3C Chemokine Receptor 1 genetics, CX3C Chemokine Receptor 1 immunology, CX3C Chemokine Receptor 1 metabolism, Capillaries immunology, Cell Communication immunology, Glomerulonephritis metabolism, Integrins immunology, Integrins metabolism, Kidney Glomerulus blood supply, Kidney Glomerulus pathology, Male, Mice, Inbred C57BL, Mice, Knockout, Mice, Transgenic, Microscopy, Confocal, Neutrophils metabolism, Reactive Oxygen Species immunology, Reactive Oxygen Species metabolism, Glomerulonephritis immunology, Kidney Glomerulus immunology, Monocytes immunology, Neutrophil Activation immunology, Neutrophils immunology
Abstract

Nonclassical monocytes undergo intravascular patrolling in blood vessels, positioning them ideally to coordinate responses to inflammatory stimuli. Under some circumstances, the actions of monocytes have been shown to involve promotion of neutrophil recruitment. However, the mechanisms whereby patrolling monocytes control the actions of neutrophils in the circulation are unclear. Here, we examined the contributions of monocytes to antibody- and neutrophil-dependent inflammation in a model of in situ immune complex-mediated glomerulonephritis. Multiphoton and spinning disk confocal intravital microscopy revealed that monocytes patrol both uninflamed and inflamed glomeruli using β2 and α4 integrins and CX3CR1. Monocyte depletion reduced glomerular injury, demonstrating that these cells promote inappropriate inflammation in this setting. Monocyte depletion also resulted in reductions in neutrophil recruitment and dwell time in glomerular capillaries and in reactive oxygen species (ROS) generation by neutrophils, suggesting a role for cross-talk between monocytes and neutrophils in induction of glomerulonephritis. Consistent with this hypothesis, patrolling monocytes and neutrophils underwent prolonged interactions in glomerular capillaries, with the duration of these interactions increasing during inflammation. Moreover, neutrophils that interacted with monocytes showed increased retention and a greater propensity for ROS generation in the glomerulus. Also, renal patrolling monocytes, but not neutrophils, produced TNF during inflammation, and TNF inhibition reduced neutrophil dwell time and ROS production, as well as renal injury. These findings show that monocytes and neutrophils undergo interactions within the glomerular microvasculature. Moreover, evidence indicates that, in response to an inflammatory stimulus, these interactions allow monocytes to promote neutrophil recruitment and activation within the glomerular microvasculature, leading to neutrophil-dependent tissue injury., Competing Interests: The authors declare no conflict of interest.

Published
2016
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27. Drug-Free Platelets Can Act as Seeds for Aggregate Formation During Antiplatelet Therapy.

Author

Hoefer T, Armstrong PC, Finsterbusch M, Chan MV, Kirkby NS, and Warner TD

Subjects
Drug Therapy, Combination, Flow Cytometry, Humans, In Vitro Techniques, Platelet Activation drug effects, Sensitivity and Specificity, Thromboxanes metabolism, Aspirin pharmacology, Blood Platelets drug effects, Platelet Aggregation drug effects, Platelet Aggregation Inhibitors pharmacology, Prasugrel Hydrochloride pharmacology
Abstract

Objective: Reduced antiplatelet drug efficacy occurs in conditions of increased platelet turnover, associated with increased proportions of drug-free, that is, uninhibited, platelets. Here, we detail mechanisms by which drug-free platelets promote platelet aggregation in the face of standard antiplatelet therapy., Approach and Results: To model standard antiplatelet therapy, platelets were treated in vitro with aspirin, the P2Y12 receptor blocker prasugrel active metabolite, or aspirin plus prasugrel active metabolite. Different proportions of uninhibited platelets were then introduced. Light transmission aggregometry analysis demonstrated clear positive associations between proportions of drug-free platelets and percentage platelet aggregation in response to a range of platelet agonists. Using differential platelet labeling coupled with advanced flow cytometry and confocal imaging we found aggregates formed in mixtures of aspirin-inhibited platelets together with drug-free platelets were characterized by intermingled platelet populations. This distribution is in accordance with the ability of drug-free platelets to generate thromboxane A2 and so drive secondary platelet activation. Conversely, aggregates formed in mixtures of prasugrel active metabolite-inhibited or aspirin plus prasugrel active metabolite-inhibited platelets together with drug-free platelets were characterized by distinct cores of drug-free platelets. This distribution is consistent with the ability of drug-free platelets to respond to the secondary activator ADP., Conclusions: These experiments are the first to image the interactions of inhibited and uninhibited platelets in the formation of platelet aggregates. They demonstrate that a general population of platelets can contain subpopulations that respond strikingly differently to overall stimulation of the population and so act as the seed for platelet aggregation., (© 2015 The Authors.)

Published
2015
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28. Novel whole blood assay for phenotyping platelet reactivity in mice identifies ICAM-1 as a mediator of platelet-monocyte interaction.

Author

Armstrong PC, Kirkby NS, Chan MV, Finsterbusch M, Hogg N, Nourshargh S, and Warner TD

Subjects
Animals, Flow Cytometry, Mice, Mice, Inbred C57BL, Mice, Knockout, Microscopy, Confocal, Phenotype, Sensitivity and Specificity, Blood Platelets metabolism, Intercellular Adhesion Molecule-1 metabolism, Monocytes metabolism, Platelet Aggregation physiology, Platelet Function Tests methods
Abstract

Testing of platelet function is central to the cardiovascular phenotyping of genetically modified mice. Traditional platelet function tests have been developed primarily for testing human samples and the volumes required make them highly unsuitable for the testing of mouse platelets. This limits research in this area. To address this problem, we have developed a miniaturized whole blood aggregometry assay, based on a readily accessible 96-well plate format coupled with quantification of single platelet depletion by flow cytometric analysis. Using this approach, we observed a concentration-dependent loss of single platelets in blood exposed to arachidonic acid, collagen, U46619 or protease activated receptor 4 activating peptide. This loss was sensitive to well-established antiplatelet agents and genetic manipulation of platelet activation pathways. Observations were more deeply analyzed by flow cytometric imaging, confocal imaging, and measurement of platelet releasates. Phenotypic analysis of the reactivity of platelets taken from mice lacking intercellular adhesion molecule (ICAM)-1 identified a marked decrease in fibrinogen-dependent platelet-monocyte interactions, especially under inflammatory conditions. Such findings exemplify the value of screening platelet phenotypes of genetically modified mice and shed further light upon the roles and interactions of platelets in inflammation., (© 2015 by The American Society of Hematology.)

Published
2015
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29. Neutrophils recruited by chemoattractants in vivo induce microvascular plasma protein leakage through secretion of TNF.

Author

Finsterbusch M, Voisin MB, Beyrau M, Williams TJ, and Nourshargh S

Subjects
Acute Disease, Animals, Antigens, CD, Capillary Permeability genetics, Cell Adhesion genetics, Cell Adhesion immunology, Cell Adhesion Molecules genetics, Cell Adhesion Molecules immunology, Chemokine CXCL1 genetics, Complement C5a genetics, Edema genetics, Edema immunology, Edema pathology, Endothelial Cells immunology, Endothelial Cells pathology, Intercellular Adhesion Molecule-1 genetics, Intercellular Adhesion Molecule-1 immunology, Intercellular Junctions genetics, Intercellular Junctions immunology, Intercellular Junctions pathology, Leukotriene B4 genetics, Mice, Mice, Knockout, Neutrophils pathology, Receptors, Tumor Necrosis Factor genetics, Receptors, Tumor Necrosis Factor immunology, Tumor Necrosis Factor-alpha genetics, Capillary Permeability immunology, Chemokine CXCL1 immunology, Complement C5a immunology, Leukotriene B4 immunology, Neutrophils immunology, Plasma, Tumor Necrosis Factor-alpha immunology
Abstract

Microvascular plasma protein leakage is an essential component of the inflammatory response and serves an important function in local host defense and tissue repair. Mediators such as histamine and bradykinin act directly on venules to increase the permeability of endothelial cell (EC) junctions. Neutrophil chemoattractants also induce leakage, a response that is dependent on neutrophil adhesion to ECs, but the underlying mechanism has proved elusive. Through application of confocal intravital microscopy to the mouse cremaster muscle, we show that neutrophils responding to chemoattractants release TNF when in close proximity of EC junctions. In vitro, neutrophils adherent to ICAM-1 or ICAM-2 rapidly released TNF in response to LTB4, C5a, and KC. Further, in TNFR(-/-) mice, neutrophils accumulated normally in response to chemoattractants administered to the cremaster muscle or dorsal skin, but neutrophil-dependent plasma protein leakage was abolished. Similar results were obtained in chimeric mice deficient in leukocyte TNF. A locally injected TNF blocking antibody was also able to inhibit neutrophil-dependent plasma leakage, but had no effect on the response induced by bradykinin. The results suggest that TNF mediates neutrophil-dependent microvascular leakage. This mechanism may contribute to the effects of TNF inhibitors in inflammatory diseases and indicates possible applications in life-threatening acute edema., (© 2014 Finsterbusch.)

Published
2014
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30. Activation of neuronal transient receptor potential vanilloid 1 channel underlies 20-hydroxyeicosatetraenoic acid-induced vasoactivity: role for protein kinase A.

Author

Bubb KJ, Wen H, Panayiotou CM, Finsterbusch M, Khan FJ, Chan MV, Priestley JV, Baker MD, and Ahluwalia A

Subjects
Animals, Blood Pressure drug effects, Dose-Response Relationship, Drug, Female, Isoindoles pharmacology, Male, Mice, Mice, Inbred C57BL, Phosphorylation, Sex Characteristics, Cyclic AMP-Dependent Protein Kinases physiology, Hydroxyeicosatetraenoic Acids pharmacology, TRPV Cation Channels physiology, Vasoconstriction drug effects
Abstract

A rise in intraluminal pressure triggers vasoconstriction in resistance arteries, which is associated with local generation of the vasoconstrictor 20-hydroxyeicosatetraenoic acid (20-HETE). Importantly, dysregulation of 20-HETE synthesis and activity has been implicated in several cardiovascular disease states, including ischemic disease, hypertension, and stroke; however, the exact molecular pathways involved in mediating 20-HETE bioactivity are uncertain. We investigated whether 20-HETE activates the transient receptor potential vanilloid 1 (TRPV1) and thereby regulates vascular function and blood pressure. We demonstrate that 20-HETE causes dose-dependent increases in blood pressure, coronary perfusion pressure (isolated Langendorff), and pressure-induced constriction of resistance arteries (perfusion myography) that is substantially attenuated in TRPV1 knockout mice and by treatment with the neurokinin 1 receptor antagonist RP67580. Furthermore, we show that both channel activation (via patch-clamping of dorsal root ganglion neurons) and vessel constriction are enhanced under inflammatory conditions, and our findings indicate a predominant role for protein kinase A-mediated sensitization of TRPV1 in these phenomena. Finally, we identify a prominence of these pathway in males compared with females, an effect we relate to reduced protein kinase A-induced phosphorylation of TRPV1. 20-HETE-induced activation of TRPV1, in part, mediates pressure-induced myogenic constriction and underlies 20-HETE-induced elevations in blood pressure and coronary resistance. Our findings identify a novel vasoconstrictor 20-HETE/TRPV1 pathway that may offer potential for therapeutic targeting in cardiovascular diseases associated with elevated 20-HETE implicated in dysregulated organ blood flow, such as stroke or hypertension.

Published
2013
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