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1. Evaluating Cryo‐TEM Reconstruction Accuracy of Self‐Assembled Polymer Nanostructures

Author

Luo, Xubo, Seidler, Morgan, Lee, Yen Jea, Yu, Tianyi, Zuckermann, Ronald N, Balsara, Nitash P, Abel, Brooks A, Prendergast, David, and Jiang, Xi

Subjects
Macromolecular and Materials Chemistry, Chemical Sciences, Bioengineering, cryogenic transmission electron microscopy, image simulation, molecular dynamics simulation, peptoid, single particle analysis, Engineering, Polymers, Chemical sciences
Abstract

Cryogenic transmission electron microscopy (cryo-TEM) combined with single particle analysis (SPA) is an emerging imaging approach for soft materials. However, the accuracy of SPA-reconstructed nanostructures, particularly those formed by synthetic polymers, remains uncertain due to potential packing heterogeneity of the nanostructures. In this study, the combination of molecular dynamics (MD) simulations and image simulations is utilized to validate the accuracy of cryo-TEM 3D reconstructions of self-assembled polypeptoid fibril nanostructures. Using CryoSPARC software, image simulations, 2D classifications, ab initio reconstructions, and homogenous refinements are performed. By comparing the results with atomic models, the recovery of molecular details is assessed, heterogeneous structures are identified, and the influence of extraction location on the reconstructions is evaluated. These findings confirm the fidelity of single particle analysis in accurately resolving complex structural characteristics and heterogeneous structures, exhibiting its potential as a valuable tool for detailed structural analysis of synthetic polymers and soft materials.

Published
2024

2. Discovery of a Peptoid-Based Nanoparticle Platform for Therapeutic mRNA Delivery via Diverse Library Clustering and Structural Parametrization

Author

Webster, Elizabeth R, Peck, Nicole E, Echeverri, Juan Diego, Gholizadeh, Shima, Tang, Wei-Lun, Woo, Rinette, Sharma, Anushtha, Liu, Weiqun, Rae, Chris S, Sallets, Adrienne, Adusumilli, Gowrisudha, Gunasekaran, Kannan, Haabeth, Ole AW, Leong, Meredith, Zuckermann, Ronald N, Deutsch, Samuel, and McKinlay, Colin J

Subjects
Medical Biotechnology, Biomedical and Clinical Sciences, Gene Therapy, Bioengineering, Nanotechnology, Biotechnology, Genetics, 5.1 Pharmaceuticals, Peptoids, Nanoparticles, Animals, Mice, RNA, Messenger, Humans, Respiratory Syncytial Viruses, Lipids, peptoid, mRNA delivery, lipid nanoparticle, design of experiments, nucleic acid delivery, high-throughput screening, Nanoscience & Nanotechnology
Abstract

Nanoparticle-mediated mRNA delivery has emerged as a promising therapeutic modality, but its growth is still limited by the discovery and optimization of effective and well-tolerated delivery strategies. Lipid nanoparticles containing charged or ionizable lipids are an emerging standard for in vivo mRNA delivery, so creating facile, tunable strategies to synthesize these key lipid-like molecules is essential to advance the field. Here, we generate a library of N-substituted glycine oligomers, peptoids, and undertake a multistage down-selection process to identify lead candidate peptoids as the ionizable component in our Nutshell nanoparticle platform. First, we identify a promising peptoid structural motif by clustering a library of >200 molecules based on predicted physical properties and evaluate members of each cluster for reporter gene expression in vivo. Then, the lead peptoid motif is optimized using design of experiments methodology to explore variations on the charged and lipophilic portions of the peptoid, facilitating the discovery of trends between structural elements and nanoparticle properties. We further demonstrate that peptoid-based Nutshells leads to expression of therapeutically relevant levels of an anti-respiratory syncytial virus antibody in mice with minimal tolerability concerns or induced immune responses compared to benchmark ionizable lipid, DLin-MC3-DMA. Through this work, we present peptoid-based nanoparticles as a tunable delivery platform that can be optimized toward a range of therapeutic programs.

Published
2024

3. Exploiting Saturation Regimes and Surface Effects to Tune Composite Design: Single Platelet Nanocomposites of Peptoid Nanosheets and CaCO3

Author

Ucar, Seniz, Nielsen, Anne R, Mojsoska, Biljana, Dideriksen, Knud, Andreassen, Jens-Petter, Zuckermann, Ronald N, and Sand, Karina K

Subjects
Engineering, Macromolecular and Materials Chemistry, Materials Engineering, Chemical Sciences, Biotechnology, thermodynamics, templated mineralization, peptoid, calcium carbonate, synthetic polymer substrates, biomimicry, nanocomposites, scaling, Nanoscience & Nanotechnology, Chemical sciences, Physical sciences
Abstract

Mineral-polymer composites found in nature exhibit exceptional structural properties essential to their function, and transferring these attributes to the synthetic design of functional materials holds promise across various sectors. Biomimetic fabrication of nanocomposites introduces new pathways for advanced material design and explores biomineralization strategies. This study presents a novel approach for producing single platelet nanocomposites composed of CaCO3 and biomimetic peptoid (N-substituted glycines) polymers, akin to the bricks found in the brick-and-mortar structure of nacre, the inner layer of certain mollusc shells. The significant aspect of the proposed strategy is the use of organic peptoid nanosheets as the scaffolds for brick formation, along with their controlled mineralization in solution. Here, we employ the B28 peptoid nanosheet as a scaffold, which readily forms free-floating zwitterionic bilayers in aqueous solution. The peptoid nanosheets were mineralized under consistent initial conditions (σcalcite = 1.2, pH 9.00), with variations in mixing conditions and supersaturation profiles over time aimed at controlling the final product. Nanosheets were mineralized in both feedback control experiments, where supersaturation was continuously replenished by titrant addition and in batch experiments without a feedback loop. Complete coverage of the nanosheet surface by amorphous calcium carbonate was achieved under specific conditions with feedback control mineralization, whereas vaterite was the primary CaCO3 phase observed after batch experiments. Thermodynamic calculations suggest that time-dependent supersaturation profiles as well as the spatial distribution of supersaturation are effective controls for tuning the mineralization extent and product. We anticipate that the control strategies outlined in this work can serve as a foundation for the advanced and scalable fabrication of nanocomposites as building blocks for nacre-mimetic and functional materials.

Published
2024

4. Nanopatterned Monolayers of Bioinspired, Sequence-Defined Polypeptoid Brushes for Semiconductor/Bio Interfaces

Author

Yu, Beihang, Chang, Boyce S, Loo, Whitney S, Dhuey, Scott, O’Reilly, Padraic, Ashby, Paul D, Connolly, Michael D, Tikhomirov, Grigory, Zuckermann, Ronald N, and Ruiz, Ricardo

Subjects
Engineering, Materials Engineering, Chemical Sciences, Biotechnology, Generic health relevance, nanopatterned polymer brushes, selective immobilization of biomolecules, semiconductor/bio interfaces, sequence-defined polymers, surface modification, Nanoscience & Nanotechnology
Abstract

The ability to control and manipulate semiconductor/bio interfaces is essential to enable biological nanofabrication pathways and bioelectronic devices. Traditional surface functionalization methods, such as self-assembled monolayers (SAMs), provide limited customization for these interfaces. Polymer brushes offer a wider range of chemistries, but choices that maintain compatibility with both lithographic patterning and biological systems are scarce. Here, we developed a class of bioinspired, sequence-defined polymers, i.e., polypeptoids, as tailored polymer brushes for surface modification of semiconductor substrates. Polypeptoids featuring a terminal hydroxyl (-OH) group are designed and synthesized for efficient melt grafting onto the native oxide layer of Si substrates, forming ultrathin (∼1 nm) monolayers. By programming monomer chemistry, our polypeptoid brush platform offers versatile surface modification, including adjustments to surface energy, passivation, preferential biomolecule attachment, and specific biomolecule binding. Importantly, the polypeptoid brush monolayers remain compatible with electron-beam lithographic patterning and retain their chemical characteristics even under harsh lithographic conditions. Electron-beam lithography is used over polypeptoid brushes to generate highly precise, binary nanoscale patterns with localized functionality for the selective immobilization (or passivation) of biomacromolecules, such as DNA origami or streptavidin, onto addressable arrays. This surface modification strategy with bioinspired, sequence-defined polypeptoid brushes enables monomer-level control over surface properties with a large parameter space of monomer chemistry and sequence and therefore is a highly versatile platform to precisely engineer semiconductor/bio interfaces for bioelectronics applications.

Published
2024

5. Relationship between molecular structure and corrugations in self-assembled polypeptoid nanosheets revealed by cryogenic electron microscopy

Author

Jiang, Xi, Zuckermann, Ronald N, and Balsara, Nitash P

Subjects
Macromolecular and Materials Chemistry, Chemical Sciences, Macromolecular and materials chemistry, Materials engineering, Condensed matter physics
Abstract

Designing conformationally dynamic molecules that self-assemble into predictable nanostructures remains an important unmet challenge. This paper describes how atomic-scale cryogenic transmission electron microscopy (cryo-TEM) can be used to explore the relationship between molecular structure and self-assembly of block copolymers. We examined sheetlike micelles formed in water using a series of diblock copolypeptoids with the same hydrophilic block and three distinct crystalline hydrophobic blocks. Our cryo-TEM images revealed all the structures share nansoscale features, but differ in their intermolecular packing geometries. Different molecular arrangements, parallel and antiparallel V-shaped crystal motifs, were revealed by two-dimensional atomic-scale through-plane images. However, images from tilted samples revealed an unexpected feature when the hydrophobic polypeptoid block comprised phenyl rings with substituted bromine atoms at the para position. The nanosheets contained atomic-scale corrugations that were absent in the other systems which comprised unsubstituted aliphatic and aromatic side chains. We hypothesize that these corrugations are due to the dipolar characteristics of the brominated phenyl group and interactions between this group and water molecules.

Published
2024

6. Atomic-scale cryogenic electron microscopy imaging of self-assembled peptoid nanostructures

Author

Jiang, Xi, Zuckermann, Ronald N, and Balsara, Nitash P

Subjects
Physical Sciences, Condensed Matter Physics, Bioengineering, Materials Engineering, Mechanical Engineering, Materials, Materials engineering, Mechanical engineering, Condensed matter physics
Abstract

Amphiphilic polypeptoids with defined sequences, versatile in forming various nanostructures, are ideal for mimicking biomacromolecular structures. The predictive design of nanostructures depends on our understanding of the relationship between molecular structure and the locations of atoms in the nanostructure. Factors of importance include chain conformation, crystal motifs, and the arrangement of the molecules within the nanostructure. This review introduces the cryogenic transmission electron microscopy (cryo-TEM) method, sorting and averaging unit cells in nanosheets for resolution enhancement and identifying structural heterogeneity. The resulting atomic-scale images reveal the presence of two types of crystal motifs. The impact of processing conditions, capping group chemistry, and side chain chemistry on structural heterogeneity and crystal motifs can be quantified. The 3D reconstruction of nanosheets, wherein atomic-scale corrugations were revealed, is introduced in this review. New developments in cryo-TEM, such as phase retrieval reconstruction, hold great promise for atomic-scale imaging of soft nanostructures. Graphical abstract: [Figure not available: see fulltext.]

Published
2023

7. Designed Metal-Containing Peptoid Membranes as Enzyme Mimetics for Catalytic Organophosphate Degradation.

Author

Trinh, Thi, Jian, Tengyue, Jin, Biao, Nguyen, Dan-Thien, Zuckermann, Ronald, and Chen, Chun-Long

Subjects
2D crystalline membrane, enzyme mimic, organophosphate, peptoid, self-assembly
Abstract

The detoxification of lethal organophosphate (OP) residues in the environment is crucial to prevent human exposure and protect modern society. Despite serving as excellent catalysts for OP degradation, natural enzymes require costly preparation and readily deactivate upon exposure to environmental conditions. Herein, we designed and prepared a series of phosphotriesterase mimics based on stable, self-assembled peptoid membranes to overcome these limitations of the enzymes and effectively catalyze the hydrolysis of dimethyl p-nitrophenyl phosphate (DMNP)─a nerve agent simulant. By covalently attaching metal-binding ligands to peptoid N-termini, we attained enzyme mimetics in the form of surface-functionalized crystalline nanomembranes. These nanomembranes display a precisely controlled arrangement of coordinated metal ions, which resemble the active sites found in phosphotriesterases to promote DMNP hydrolysis. Moreover, using these highly programmable peptoid nanomembranes allows for tuning the local chemical environment of the coordinated metal ion to achieve enhanced hydrolysis activity. Among the crystalline membranes that are active for DMNP degradation, those assembled from peptoids containing bis-quinoline ligands with an adjacent phenyl side chain showed the highest hydrolytic activity with a 219-fold rate acceleration over the background, demonstrating the important role of the hydrophobic environment in proximity to the active sites. Furthermore, these membranes exhibited remarkable stability and were able to retain their catalytic activity after heating to 60 °C and after multiple uses. This work provides insights into the principal features to construct a new class of biomimetic materials with high catalytic efficiency, cost-effectiveness, and reusability applied in nerve agent detoxification.

Published
2023

8. Capmatinib is an effective treatment for MET-fusion driven pediatric high-grade glioma and synergizes with radiotherapy

Author

Zuckermann, Marc, He, Chen, Andrews, Jared, Bagchi, Aditi, Sloan-Henry, Roketa, Bianski, Brandon, Xie, Jia, Wang, Yingzhe, Twarog, Nathaniel, Onar-Thomas, Arzu, Ernst, Kati J., Yang, Lei, Li, Yong, Zhu, Xiaoyan, Ocasio, Jennifer K., Budd, Kaitlin M., Dalton, James, Li, Xiaoyu, Chepyala, Divyabharathi, Zhang, Junyuan, Xu, Ke, Hover, Laura, Roach, Jordan T., Chan, Kenneth Chun-Ho, Hofmann, Nina, McKinnon, Peter J., Pfister, Stefan M., Shelat, Anang A., Rankovic, Zoran, Freeman, III, Burgess B., Chiang, Jason, Jones, David T. W., Tinkle, Christopher L., and Baker, Suzanne J.

Published
2024
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10. Capmatinib is an effective treatment for MET-fusion driven pediatric high-grade glioma and synergizes with radiotherapy

Author

Marc Zuckermann, Chen He, Jared Andrews, Aditi Bagchi, Roketa Sloan-Henry, Brandon Bianski, Jia Xie, Yingzhe Wang, Nathaniel Twarog, Arzu Onar-Thomas, Kati J. Ernst, Lei Yang, Yong Li, Xiaoyan Zhu, Jennifer K. Ocasio, Kaitlin M. Budd, James Dalton, Xiaoyu Li, Divyabharathi Chepyala, Junyuan Zhang, Ke Xu, Laura Hover, Jordan T. Roach, Kenneth Chun-Ho Chan, Nina Hofmann, Peter J. McKinnon, Stefan M. Pfister, Anang A. Shelat, Zoran Rankovic, Burgess B. Freeman, Jason Chiang, David T. W. Jones, Christopher L. Tinkle, and Suzanne J. Baker

Subjects
Combination therapy, Pediatric-type diffuse high-grade glioma, Radiosensitization, MET inhibition, Preclinical trials, Capmatinib, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282
Abstract

Abstract Background Pediatric-type diffuse high-grade glioma (pHGG) is the most frequent malignant brain tumor in children and can be subclassified into multiple entities. Fusion genes activating the MET receptor tyrosine kinase often occur in infant-type hemispheric glioma (IHG) but also in other pHGG and are associated with devastating morbidity and mortality. Methods To identify new treatment options, we established and characterized two novel orthotopic mouse models harboring distinct MET fusions. These included an immunocompetent, murine allograft model and patient-derived orthotopic xenografts (PDOX) from a MET-fusion IHG patient who failed conventional therapy and targeted therapy with cabozantinib. With these models, we analyzed the efficacy and pharmacokinetic properties of three MET inhibitors, capmatinib, crizotinib and cabozantinib, alone or combined with radiotherapy. Results Capmatinib showed superior brain pharmacokinetic properties and greater in vitro and in vivo efficacy than cabozantinib or crizotinib in both models. The PDOX models recapitulated the poor efficacy of cabozantinib experienced by the patient. In contrast, capmatinib extended survival and induced long-term progression-free survival when combined with radiotherapy in two complementary mouse models. Capmatinib treatment increased radiation-induced DNA double-strand breaks and delayed their repair. Conclusions We comprehensively investigated the combination of MET inhibition and radiotherapy as a novel treatment option for MET-driven pHGG. Our seminal preclinical data package includes pharmacokinetic characterization, recapitulation of clinical outcomes, coinciding results from multiple complementing in vivo studies, and insights into molecular mechanism underlying increased efficacy. Taken together, we demonstrate the groundbreaking efficacy of capmatinib and radiation as a highly promising concept for future clinical trials.

Published
2024
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11. O CUIDADO ATRAVÉS DO OLHAR DO ENFERMEIRO NO PROCESSO DE VISITA AO DOMICÍLIO DO PACIENTE SUBMETIDO AO TRANSPLANTE DE CÉLULAS TRONCO HEMATOPOIÉTICAS ANTES DA ALTA HOSPITALAR

Author

BZ Spessatto, CO Grings, GL Pedebos, GB Kabke, J Zuckermann, JF Oliveira, LM Vilanova, N Rohsmann, and PG Guilardi

Subjects
Diseases of the blood and blood-forming organs, RC633-647.5
Abstract

Objetivo: Descrever a importância do enfermeiro no processo de educação em saúde na alta hospitalar do paciente pós transplante de células tronco hematopoiéticas através da visita domiciliar (VD) em um hospital de referência do sul do país. Método: Relato de experiência da participação do enfermeiro inserido no Programa de Assistência ao Transplante de Células Tronco Hematopoéticas (PATCTH) do Hospital de Clínicas de Porto Alegre na visita domiciliar. Resultados: O PATCTH visa ofertar ao paciente cuidados multidisciplinares relacionados às fases do tratamento a serem enfrentadas e as orientações necessárias para o pós-alta hospitalar. Nessa fase, sabe-se da importância do paciente viver em um domicílio onde não ocorra a exposição a riscos ambientais que podem ser evitados. Dessa forma, o enfermeiro, e a assistente social envolvida e participante do PATCTH agendam a visita com um familiar próximo do paciente, que irá residir no mesmo ambiente e auxiliar nos cuidados, e visitam o domicílio previamente a alta, realizando junto a família um plano de ação para receber o paciente em casa, sinalizando as adequações necessárias ao ambiente e a rotina da família, de modo que o local se torne seguro para o seu retorno. São verificados fatores de risco determinantes como contato com poeira, cimento, plantas e animais. Sendo assim, é realizada uma lista de adequações conforme a necessidade ali avaliada. O enfermeiro e o assistente social, como disseminadores de informações, realizam um processo de educação em saúde com o familiar e o paciente, fazendo-os compreender o porquê de tais adequações, informando os riscos aos quais o paciente poderá ser exposto, e também, oferecendo idéias de ajustes que sejam compatíveis com a realidade social e econômica da família. Em caso de impossibilidade na realização das adequações, o serviço social verifica a viabilização de uma casa de apoio, previamente conhecida pela equipe assistencial, na qual poderá receber o paciente junto a um familiar, respeitando os cuidados necessários para um ambiente seguro. Conclusão: Conforme a experiência assistencial na VD, é possível afirmar que através da educação dos familiares e do paciente a respeito do processo de transplante e dos cuidados necessários no ambiente domiciliar cria-se um cenário adequado para promover a recuperação plena. Ao paciente é viabilizada a corresponsabilização do seu autocuidado e tratamento, e ao familiar a autonomia e a segurança em suas ações de cuidado.

Published
2024
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12. A EDUCAÇÃO EM SAÚDE MULTIDISCIPLINAR PRÉ HOSPITALAR NO CONTEXTO DO TRANSPLANTE DE CÉLULAS TRONCO HEMATOPOÉTICAS

Author

BZ Spessatto, CO Grings, GB Kabke, J Zuckermann, JF Oliveira, LM Vilanova, N Rohsmann, and PG Guilardi

Subjects
Diseases of the blood and blood-forming organs, RC633-647.5
Abstract

Introdução: Para a realização do Transplante de Células Tronco Hematopoéticas (TCTH) é necessário iniciar o processo de educação do paciente e sua família antes mesmo da etapa da internação, para tanto, o programa implementou consultas multidisciplinares, onde cada profissional aborda os cuidados direcionados de acordo com a sua área, as fases do tratamento e as orientações relacionadas ao pós alta para que a residência da família se torne um local de segurança para o paciente. Objetivos: Descrever os benefícios das consultas multidisciplinares pré-TCTH em um hospital de referência no sul do país com foco no ensino do auto-cuidado e educação em saúde de forma precoce. Método: Relato da prática inovadora implementada como rotina pelo Programa de Assistência ao Transplante de Células Tronco Hematopoéticas (PATCTH) do Hospital de Clínicas de Porto Alegre. Metodologia empregada: Conforme a rotina do PATCTH, inicialmente o paciente é avaliado pela equipe de enfermagem que dá início ao processo de educação em saúde no âmbito do TCTH. Nesse momento são fornecidas as informações sobre os objetivos do tratamento e suas fases, incluindo as possíveis complicações, além de um histórico de saúde detalhado. Posteriormente, são realizadas as consultas com a farmácia, fisioterapia, psicologia, nutrição, serviço social e odontologia. Todos os profissionais têm como objetivo avaliar o paciente em diferentes aspectos, conforme cada área de atuação, e realizar as intervenções de educação em saúde necessárias, de modo a garantir o cuidado centrado no paciente. Após todas as avaliações, realiza-se a discussão do caso em um dos encontros do programa, onde é traçado o plano terapêutico compartilhado e definidas as próximas ações de educação em saúde, a partir das demandas identificadas. Resultados: As consultas multidisciplinares assistem o paciente em sua integralidade, possibilitando que cada profissional possa orientar o paciente e promover cuidados referentes à sua área de atuação. Foi notório que a abordagem prévia aproxima o paciente da equipe de saúde, iniciando e fortalecendo o vínculo com os profissionais que estarão presentes na sua internação, gerando confiança. Além disso, propicia que o paciente adquira conhecimento sobre suas próprias demandas, o que o torna protagonista do cuidado. Conclusão: Através do entendimento do paciente em sua individualidade integrado ao seu contexto de vida, houve uma aproximação proporcionada pela escuta qualificada, pelo engajamento do paciente no seu próprio cuidado e na corresponsabilização do mesmo em seu tratamento.

Published
2024
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13. Loss of Elp1 in cerebellar granule cell progenitors models ataxia phenotype of Familial Dysautonomia

Author

Frederik Arnskötter, Patricia Benites Goncalves da Silva, Mackenna E. Schouw, Chiara Lukasch, Luca Bianchini, Laura Sieber, Jesus Garcia-Lopez, Shiekh Tanveer Ahmad, Yiran Li, Hong Lin, Piyush Joshi, Lisa Spänig, Magdalena Radoš, Mykola Roiuk, Mari Sepp, Marc Zuckermann, Paul A. Northcott, Annarita Patrizi, and Lena M. Kutscher

Subjects
ELP1, Elongator complex, Granule cell progenitor, Cerebellum, Familial Dysautonomia, ataxia, Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571
Abstract

Familial Dysautonomia (FD) is an autosomal recessive disorder caused by a splice site mutation in the gene ELP1, which disproportionally affects neurons. While classically characterized by deficits in sensory and autonomic neurons, neuronal defects in the central nervous system have also been described. Although ELP1 expression remains high in the normal developing and adult cerebellum, its role in cerebellar development is unknown. To explore the role of Elp1 in the cerebellum, we knocked out Elp1 in cerebellar granule cell progenitors (GCPs) and examined the outcome on animal behavior and cellular composition. We found that GCP-specific conditional knockout of Elp1 (Elp1cKO) resulted in ataxia by 8 weeks of age. Cellular characterization showed that the animals had smaller cerebella with fewer granule cells. This defect was already apparent as early as 7 days after birth, when Elp1cKO animals also had fewer mitotic GCPs and shorter Purkinje dendrites. Through molecular characterization, we found that loss of Elp1 was associated with an increase in apoptotic cell death and cell stress pathways in GCPs. Our study demonstrates the importance of ELP1 in the developing cerebellum, and suggests that loss of Elp1 in the GC lineage may also play a role in the progressive ataxia phenotypes of FD patients.

Published
2024
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14. Hypothermic oxygenated perfusion of the donor heart in heart transplantation: the short-term outcome from a randomised, controlled, open-label, multicentre clinical trial

Author

Van Cleemput, Johan, Degezelle, Karlien, Wert, Leonhard, Yeter, Ruhi, Lichtenberg, Artur, Aubin, Hug, Görler, Adelheid, Freyt, Susanne, McDiarmid, Adam, Jungschleger, Jerome, Mukadam, Majid, Turner, Paul, Mullen, Rebecca, Hernández, Francisco, Ospina, Victor, Jonsson, Kristjan, Ternström, Lisa, Al Kalbani, Hamed, Djavidi, Nima, Fabozzo, Assunta, Pradegan, Nicola, Aliabadi-Zuckermann, Arezu, Osorio, Emilio, Rega, Filip, Lebreton, Guillaume, Para, Marylou, Michel, Sebastian, Schramm, René, Begot, Emmanuelle, Vandendriessche, Katrien, Kamla, Christine, Gerosa, Gino, Berman, Marius, Boeken, Udo, Clark, Steven, Ranasinghe, Aaron, Ius, Fabio, Forteza, Alberto, Pivodic, Aldina, Hennig, Felix, Guenther, Sabina, Zuckermann, Andreas, Knosalla, Christoph, Dellgren, Göran, and Wallinder, Andreas

Published
2024
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15. Redefining the molecular rejection states in 3230 heart transplant biopsies: Relationships to parenchymal injury and graft survival

Author

Halloran, Philip F., Madill-Thomsen, Katelynn, Aliabadi-Zuckermann, Arezu Z., Cadeiras, Martin, Crespo-Leiro, Marisa G., Depasquale, Eugene C., Deng, Mario, Gökler, Johannes, Hall, Shelley, Jamil, Aayla, Kim, Daniel H., Kobashigawa, Jon, Macdonald, Peter, Melenovsky, Vojtech, Patel, Jignesh, Potena, Luciano, Shah, Keyur, Stehlik, Josef, and Zuckermann, Andreas

Published
2024
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17. Atomic-Scale Corrugations in Crystalline Polypeptoid Nanosheets Revealed by Three-Dimensional Cryogenic Electron Microscopy

Author

Jiang, Xi, Seidler, Morgan, Butterfoss, Glenn L, Luo, Xubo, Yu, Tianyi, Xuan, Sunting, Prendergast, David, Zuckermann, Ronald N, and Balsara, Nitash P

Subjects
Macromolecular and Materials Chemistry, Chemical Sciences, MSD-General, MSD-Soft Matter EM, Physical Chemistry (incl. Structural), Macromolecular and materials chemistry, Physical chemistry
Abstract

Amphiphilic molecules that can crystallize often form molecularly thin nanosheets in aqueous solutions. The possibility of atomic-scale corrugations in these structures has not yet been recognized. We have studied the self-assembly of amphiphilic polypeptoids, a family of bio-inspired polymers that can self-assemble into various crystalline nanostructures. Atomic-scale structure of the crystals in these systems has been inferred using both X-ray diffraction and electron microscopy. Here we use cryogenic electron microscopy to determine the in-plane and out-of-plane structures of a crystalline nanosheet. Data were collected as a function of tilt angle and analyzed using a hybrid single-particle crystallographic approach. The analysis reveals that adjacent rows of peptoid chains, which are separated by 4.5 Å in the plane of the nanosheet, are offset by 6 Å in the direction perpendicular to the plane of the nanosheet. These atomic-scale corrugations lead to a doubling of the unit cell dimension from 4.5 to 9 Å. Our work provides an alternative interpretation for the observed Å X-ray diffraction peak often reported in polypeptoid crystals.

Published
2023

18. Structural Elucidation of a Polypeptoid Chain in a Crystalline Lattice Reveals Key Morphology-Directing Role of the N‑Terminus

Author

Yu, Tianyi, Luo, Xubo, Prendergast, David, Butterfoss, Glenn L, Rad, Behzad, Balsara, Nitash P, Zuckermann, Ronald N, and Jiang, Xi

Subjects
Biotechnology, Bioengineering, Peptoids, Molecular Structure, Nanostructures, Polymers, self-assembly, peptoid crystallization, protein-mimetic materials, molecular packing, cryo-TEM, MD simulation, Nanoscience & Nanotechnology
Abstract

The ability to engineer synthetic polymers with the same structural precision as biomacromolecules is crucial to enable the de novo design of robust nanomaterials with biomimetic function. Peptoids, poly(N-substituted) glycines, are a highly controllable bio-inspired polymer family that can assemble into a variety of functional, crystalline nanostructures over a wide range of sequences. Extensive investigation on the molecular packing in these lattices has been reported; however, many key atomic-level details of the molecular structure remain underexplored. Here, we use cryo-TEM 3D reconstruction to directly visualize the conformation of an individual polymer chain within a peptoid nanofiber lattice in real space at 3.6 Å resolution. The backbone in the N-decylglycine hydrophobic core is shown to clearly adopt an extended, all-cis-sigma strand conformation, as previously suggested in many peptoid lattice models. We also show that packing interactions (covalent and noncovalent) at the solvent-exposed N-termini have a dominant impact on the local chain ordering and hence the ability of the chains to pack into well-ordered lattices. Peptoids in pure water form fibers with limited growth in the a direction (

Published
2023

20. The impacts of the Nutrition North Canada program on the accessibility and affordability of perishable, nutritious foods among eligible communities: a scoping review

Author

Jason Edward Pagaduan, Calin Lazarescu, Eric Vallieres, Kelly Skinner, Alexandra M.E. Zuckermann, and Leanne Idzerda

Subjects
Nutrition North Canada, food security, food program, food sovereignty, Northern Canada, Indigenous peoples, Arctic medicine. Tropical medicine, RC955-962
Abstract

ABSTRACTThe Nutrition North Canada (NNC) program, introduced in April 2011 is a federal strategy to improve access to perishable, nutritious foods for remote and isolated communities in northern Canada by subsidising retailers to provide price reductions at the point of purchase. As of March 2023, 123 communities are eligible for the program. To evaluate existing evidence and research on the NNC program to inform policy decisions to improve the effectiveness of NNC. A scoping review of peer-reviewed articles was conducted in ten databases along with a supplemental grey literature search of government and non-government reports published between 2011 and 2022. The search yielded 172 publications for screening, of which 42 were included in the analysis. Narrative thematic evidence synthesis yielded 104 critiques and 341 recommendations of the NNC program across eight themes. The most-identified recommendations focus on transparency, communication, and support for harvesting, hunting, and community food initiatives. This review highlights recommendations informed by the literature to address critiques of the NNC program to improve food security, increase access to perishable and non-perishable items, and support community-based food initiatives among eligible communities. The review also identifies priority areas for future policy directions such as additional support for education initiatives, communication and transparency amidst program changes, and food price regulations.

Published
2024
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23. Loss of Elp1 in cerebellar granule cell progenitors models ataxia phenotype of Familial Dysautonomia

Author

Arnskötter, Frederik, da Silva, Patricia Benites Goncalves, Schouw, Mackenna E., Lukasch, Chiara, Bianchini, Luca, Sieber, Laura, Garcia-Lopez, Jesus, Ahmad, Shiekh Tanveer, Li, Yiran, Lin, Hong, Joshi, Piyush, Spänig, Lisa, Radoš, Magdalena, Roiuk, Mykola, Sepp, Mari, Zuckermann, Marc, Northcott, Paul A., Patrizi, Annarita, and Kutscher, Lena M.

Published
2024
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26. Hierarchical Approach for Controlled Assembly of Branched Nanostructures from One Polymer Compound by Engineering Crystalline Domains

Author

Ding, Xiangmin, Liu, Dandan, Jiang, Xi, Chen, Xuesi, Zuckermann, Ronald N, and Sun, Jing

Subjects
Engineering, Macromolecular and Materials Chemistry, Materials Engineering, Chemical Sciences, Affordable and Clean Energy, Polymers, Micelles, Nanostructures, Crystallization, Solubility, self-assembly, hierarchical structure, block copolymer, polypeptoid, crystallization, Lamborghini, Aston Martin, Nanoscience & Nanotechnology
Abstract

The interplay of crystalline packing, which governs atomic length-scale order, and hierarchical assembly, which governs longer length scales, is essential to fabricate complex superstructures from polymers for many applications. Here, we demonstrate that a diblock copolymer containing an N-octylglycine peptoid block, which has a propensity to crystallize, can form distinct hierarchical superstructures including a star-like morphology, a superbrush, or a nanosheet by tuning the balance between surface energy arising from the solubility of the copolymers and crystallization energy of the solvophobic polypeptoid blocks. We show that partially ordered micellar aggregates (clusters) are key intermediates that form early in the assembly process and template the formation of superstructures via the oriented fusion of individual micelles as the growth materials. Notably, the fiber-like branch of the superstructures is driven by crystallization and exhibits growth in a living linear manner. The superstructures can be internalized by mammalian cells and hold promise for biomedical applications.

Published
2022

34. The value of extracorporeal photopheresis as an immunosuppression-modifying approach in solid organ transplantation: a potential solution to an unmet medical need

Author

Jean-François Augusto, Christian Benden, Fritz Diekmann, and Andreas Zuckermann

Subjects
allograft rejection, calcineurin inhibitors, extracorporeal photopheresis, immunosuppression, solid organ transplantation, Immunologic diseases. Allergy, RC581-607
Abstract

Allograft rejection is a critical issue following solid organ transplantation (SOT). Immunosuppressive therapies are crucial in reducing risk of rejection yet are accompanied by several significant side effects, including infection, malignancy, cardiovascular diseases, and nephrotoxicity. There is a current unmet medical need with a lack of effective minimization strategies for these side effects. Extracorporeal photopheresis (ECP) has shown potential as an immunosuppression (IS)-modifying technique in several SOT types, with improvements seen in acute and recurrent rejection, allograft survival, and associated side effects, and could fulfil this unmet need. Through a review of the available literature detailing key areas in which ECP may benefit patients, this review highlights the IS-modifying potential of ECP in the four most common SOT procedures (heart, lung, kidney, and liver transplantation) and highlights existing gaps in data. Current evidence supports the use of ECP for IS modification following SOT, however there is a need for further high-quality research, in particular randomized control trials, in this area.

Published
2024
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35. A clinically attenuated double-mutant of porcine reproductive and respiratory syndrome virus-2 that does not prompt overexpression of proinflammatory cytokines during co-infection with a secondary pathogen.

Author

Chia-Ming Su, Jineui Kim, Junyu Tang, Yu Fan Hung, Federico A Zuckermann, Robert Husmann, Patrick Roady, Jiyoun Kim, Young-Min Lee, and Dongwan Yoo

Subjects
Immunologic diseases. Allergy, RC581-607, Biology (General), QH301-705.5
Abstract

Porcine reproductive and respiratory syndrome virus (PRRSV) is known to suppress the type I interferon (IFNs-α/β) response during infection. PRRSV also activates the NF-κB signaling pathway, leading to the production of proinflammatory cytokines during infection. In swine farms, co-infections of PRRSV and other secondary bacterial pathogens are common and exacerbate the production of proinflammatory cytokines, contributing to the porcine respiratory disease complex (PRDC) which is clinically a severe disease. Previous studies identified the non-structural protein 1β (nsp1β) of PRRSV-2 as an IFN antagonist and the nucleocapsid (N) protein as the NF-κB activator. Further studies showed the leucine at position 126 (L126) of nsp1β as the essential residue for IFN suppression and the region spanning the nuclear localization signal (NLS) of N as the NF-κB activation domain. In the present study, we generated a double-mutant PRRSV-2 that contained the L126A mutation in the nsp1β gene and the NLS mutation (ΔNLS) in the N gene using reverse genetics. The immunological phenotype of this mutant PRRSV-2 was examined in porcine alveolar macrophages (PAMs) in vitro and in young pigs in vivo. In PAMs, the double-mutant virus did not suppress IFN-β expression but decreased the NF-κB-dependent inflammatory cytokine productions compared to those for wild-type PRRSV-2. Co-infection of PAMs with the mutant PRRSV-2 and Streptococcus suis (S. suis) also reduced the production of NF-κB-directed inflammatory cytokines. To further examine the cytokine profiles and the disease severity by the mutant virus in natural host animals, 6 groups of pigs, 7 animals per group, were used for co-infection with the mutant PRRSV-2 and S. suis. The double-mutant PRRSV-2 was clinically attenuated, and the expressions of proinflammatory cytokines and chemokines were significantly reduced in pigs after bacterial co-infection. Compared to the wild-type PRRSV-2 and S. suis co-infection control, pigs coinfected with the double-mutant PRRSV-2 exhibited milder clinical signs, lower titers and shorter duration of viremia, and lower expression of proinflammatory cytokines. In conclusion, our study demonstrates that genetic modification of the type I IFN suppression and NF-κB activation functions of PRRSV-2 may allow us to design a novel vaccine candidate to alleviate the clinical severity of PRRS-2 and PRDC during bacterial co-infection.

Published
2024
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43. Minimizing Crinkling of Soft Specimens Using Holey Gold Films on Molybdenum Grids for Cryogenic Electron Microscopy

Author

Jiang, Xi, Xuan, Sunting, Zuckermann, Ronald N, Glaeser, Robert M, Downing, Kenneth H, and Balsara, Nitash P

Subjects
Engineering, Materials Engineering, cryo-crinkling, cryo-EM, crystalline polypeptoid membranes, crystallography, specimen flatness, Condensed Matter Physics, Biochemistry and Cell Biology, Microscopy, Biochemistry and cell biology, Materials engineering
Abstract

We introduce a novel composite holey gold support that prevents cryo-crinkling and reduces beam-induced motion of soft specimens, building on the previously introduced all-gold support. The composite holey gold support for high-resolution cryogenic electron microscopy of soft crystalline membranes was fabricated in two steps. In the first step, a holey gold film was transferred on top of a molybdenum grid. In the second step, a continuous thin carbon film was transferred onto the holey gold film. This support (Au/Mo grid) was used to image crystalline synthetic polymer membranes. The low thermal expansion of Mo is not only expected to avoid cryo-crinkling of the membrane when the grids are cooled to cryogenic temperatures, but it may also act to reduce whatever crinkling existed even before cooling. The Au/Mo grid exhibits excellent performance with specimens tilted to 45°. This is demonstrated by quantifying beam-induced motion and differences in local defocus values. In addition, images of specimens on the Au/Mo grids that are tilted at 45° show high-resolution information of the crystalline membranes that, after lattice-unbending, extends beyond 1.5 Å in the direction perpendicular to the tilt axis.

Published
2021

44. Effect of hydration on morphology of thin phosphonate block copolymer electrolyte membranes studied by electron tomography

Author

Jiang, Xi, Sun, Jing, Zuckermann, Ronald N, and Balsara, Nitash P

Subjects
Engineering, Materials Engineering, cryogenic, electron tomography, low-dose, polymer electrolyte membrane, polypeptoid, transmission electron microscopy, MSD-General, MSD-Soft Matter EM, Macromolecular and Materials Chemistry, Chemical Engineering, Polymers, Chemical engineering, Materials engineering
Abstract

The morphological changes of phosphonate polypeptoid electrolyte membranes, poly-N-(2-ethyl)hexylglycine-block-poly-N-phosphonomethylglycine (pNehm-b-pNpmn), in hydrated and dry states were characterized by cryogenic transmission electron microscopy (cryo-TEM) and cryogenic electron tomography (cryo-ET). The analysis of 3D tomograms revealed that the pNeh9-b-pNpm9 thin films absorbed a large amount of water, resulting in the formation of membranes that were nearly flat and giant multicompartment vesicles dispersed in the water phase. A simple lamellar phase appeared when the films were dried. In contrast, pNeh18-b-pNpm18 thin films absorbed little water and formed small highly curved unilamellar and multilamellar vesicles. Water was located mainly outside the closely-packed vesicles. When water was removed by drying, the walls of adjacent vesicles collapsed to form honeycomb-like capsules. The changes in domain size reflected changes in chain conformations. The pNpm9 blocks were saturated by water and fully extended, while pNpm18 blocks were neither saturated by water nor fully extended. In addition, the thicknesses of hydrophobic blocks in the hydrated films of both pNeh9-b-pNpm9 and pNeh18-b-pNpm18 were smaller than those in the dry films, reflecting an increase of the average distance between the neighboring junctions of polypeptoid molecules.

Published
2021

46. Hierarchical supramolecular assembly of a single peptoid polymer into a planar nanobrush with two distinct molecular packing motifs

Author

Sun, Jing, Wang, Zhiwei, Zhu, Chenhui, Wang, Meiyao, Shi, Zhekun, Wei, Yuhan, Fu, Xiaohui, Chen, Xuesi, and Zuckermann, Ronald N

Subjects
Macromolecular and Materials Chemistry, Engineering, Chemical Sciences, Bioengineering, self-assembly, polypeptoid, diblock copolymer, crystallization, solvophobicity
Abstract

Hierarchical nanomaterials have received increasing interest for many applications. Here, we report a facile programmable strategy based on an embedded segmental crystallinity design to prepare unprecedented supramolecular planar nanobrush-like structures composed of two distinct molecular packing motifs, by the self-assembly of one particular diblock copolymer poly(ethylene glycol)-block-poly(N-octylglycine) in a one-pot preparation. We demonstrate that the superstructures result from the temperature-controlled hierarchical self-assembly of preformed spherical micelles by optimizing the crystallization-solvophobicity balance. Particularly remarkable is that these micelles first assemble into linear arrays at elevated temperatures, which, upon cooling, subsequently template further lateral, crystallization-driven assembly in a living manner. Addition of the diblock copolymer chains to the growing nanostructure occurs via a loosely organized micellar intermediate state, which undergoes an unfolding transition to the final crystalline state in the nanobrush. This assembly mechanism is distinct from previous crystallization-driven approaches which occur via unimer addition, and is more akin to protein crystallization. Interestingly, nanobrush formation is conserved over a variety of preparation pathways. The precise control ability over the superstructure, combined with the excellent biocompatibility of polypeptoids, offers great potential for nanomaterials inaccessible previously for a broad range of advanced applications.

Published
2020

47. A Biochemical and Histological Assessment of Postmortem Changes to the Eyes of Domestic Pigs: A Preliminary Study

Author

Magdalena Palić, Ivan-Conrado Šoštarić Zuckermann, Petar Džaja, Blanka Beer Ljubić, and Krešimir Severin

Subjects
domestic pigs, biochemistry, electrolytes, vitreous of the eye, histology, retina, Veterinary medicine, SF600-1100, Zoology, QL1-991
Abstract

The Postmortem Interval (PMI) is the time from the death of an animal to its discovery. From a veterinary forensic standpoint, an accurate estimation of the PMI is of particular importance, especially with the observed increase in deaths of domestic and wild animals. A preliminary study was conducted using the eyes of domestic pigs. A biochemical analysis was conducted on the vitreous humor of the eye, whilst a histological analysis was conducted on the retina. The eyes were stored at +4 °C and changes were assessed at time intervals of 0, 12, 24, 48, and 120 h. The biochemical analysis during the PMI established a decrease in sodium, chlorine, and glucose concentrations, and a rise in potassium concentration. Accordingly, a simple linear regression showed a significant correlation between changes in concentrations of sodium (Na+), potassium (K+), chloride (Cl−), and glucose, in relation to the PMI. The histological analysis showed evident morphological changes in the retina, which included homogenization of the rod and cone cells, pyknosis of the outer nuclear layer, homogenization of the outer plexiform layer, pyknosis of the inner nuclear layer, homogenization of the inner plexiform layer, and pyknosis of the nuclei of the ganglion layer of the retina.

Published
2024
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48. Comprehensive Diagnosis, Treatment, and Outcome of Taenia crassiceps Cysticercosis in a Ring-Tailed Lemur (Lemur catta) from a Croatian Zoo: No Longer Unusual?

Author

Lea Grbavac, Ana Šikić, Petar Kostešić, Ivan-Conrado Šoštarić-Zuckermann, Vesna Mojčec Perko, Jadranko Boras, Ingeborg Bata, Andrija Musulin, Tara Kostanjšak, and Tatjana Živičnjak

Subjects
Cysticercus longicollis, Taenia crassiceps, metacestode, subcutaneous, ring-tailed lemur, formalin-fixed and paraffin-embedded tissue, Medicine
Abstract

Taenia crassiceps is a zoonotic tapeworm of the genus Taenia that is distributed throughout the Northern Hemisphere. Wild and domestic carnivores are final hosts, while rodents and rabbits are primarily intermediate hosts, although many other mammals may harbour the larval stage, Cysticercus longicollis. This case report aims to describe C. longicollis infection in a lemur and molecularly characterise the isolated parasite. The excised lesion was subjected to morphological and histopathological examination, which revealed cysticerci of the tapeworm. Formalin-fixed and paraffin-embedded block (FFPEB), as well as the cysticerci fixed with formalin stored for one year, were subjected to molecular analysis, which aimed at detecting the partial mitochondrial cytochrome c oxidase subunit 1 (cox1) gene of Taenia sp. Based on the morphological characteristics, the parasite was identified as a metacestode of T. crassiceps. The presence of the cox1 gene was detected using polymerase chain reaction (PCR) in all samples. A randomly selected PCR product was sequenced and compared with other sequences from the GenBank database, confirming that the detected parasite was T. crassiceps. This article reports the first case of T. crassiceps cysticercosis in a lemur (Lemur catta) in Croatia and emphasises the potential risk of transmission from wild carnivores.

Published
2024
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49. Prospective assessment of pre-existing and de novo anti-HLA IgE in kidney, liver, lung and heart transplantation

Author

Jasmin Mucha, Ara Cho, Anna Marianne Weijler, Moritz Muckenhuber, Amun Georg Hofmann, Markus Wahrmann, Andreas Heinzel, Birgit Linhart, Pia Gattinger, Rudolf Valenta, Gabriela Berlakovich, Andreas Zuckermann, Peter Jaksch, Rainer Oberbauer, and Thomas Wekerle

Subjects
organ transplantation, kidney transplantation, clinical, immunology, donor-specific antibodies (DSA), antibody-mediated rejection, Immunologic diseases. Allergy, RC581-607
Abstract

IntroductionAntibody mediated rejection (ABMR) is a major factor limiting outcome after organ transplantation. Anti-HLA donor-specific antibodies (DSA) of the IgG isotype are mainly responsible for ABMR. Recently DSA of the IgE isotype were demonstrated in murine models as well as in a small cohort of sensitized transplant recipients. In the present study, we aimed to determine the frequency of pre-existing and de novo anti-HLA IgE antibodies in a cohort of 105 solid organ transplant recipients.MethodsWe prospectively measured anti-HLA IgE antibodies in a cohort of kidney (n=60), liver, heart and lung (n=15 each) transplant recipients before and within one-year after transplantation, employing a single-antigen bead assay for HLA class I and class II antigens. Functional activity of anti-HLA IgE antibodies was assessed by an in vitro mediator release assay. Antibodies of the IgG1-4 subclasses and Th1 and Th2 cytokines were measured in anti-HLA IgE positive patients.ResultsPre-existing anti-HLA IgE antibodies were detected in 10% of renal recipients (including 3.3% IgE-DSA) and in 4.4% of non-renal solid organ transplant recipients (heart, liver and lung cohort). Anti-HLA IgE occurred only in patients that were positive for anti-HLA IgG, and most IgE positive patients had had a previous transplant. Only a small fraction of patients developed de novo anti-HLA IgE antibodies (1.7% of kidney recipients and 4.4% of non-renal recipients), whereas no de novo IgE-DSA was detected. IgG subclass antibodies showed a distinct pattern in patients who were positive for anti-HLA IgE. Moreover, patients with anti-HLA IgE showed elevated Th2 and also Th1 cytokine levels. Serum from IgE positive recipients led to degranulation of basophils in vitro, demonstrating functionality of anti-HLA IgE.DiscussionThese data demonstrate that anti-HLA IgE antibodies occur at low frequency in kidney, liver, heart and lung transplant recipients. Anti-HLA IgE development is associated with sensitization at the IgG level, in particular through previous transplants and distinct IgG subclasses. Taken together, HLA specific IgE sensitization is a new phenomenon in solid organ transplant recipients whose potential relevance for allograft injury requires further investigation.

Published
2023
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