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2. Potentiation of [BK.sub.Ca] channels by cystic fibrosis transmembrane conductance regulator correctors VX-445 and VX-121

Author

Kolski-Andreaco, Aaron, Taiclet, Stefanie, Myerburg, Michael M., Sembrat, John, Bridges, Robert J., Straub, Adam C., Wills, Zachary P., Butterworth, Michael B., and Devor, Daniel C.

Subjects
Gene mutations -- Health aspects, Cystic fibrosis -- Diagnosis -- Care and treatment -- Genetic aspects, Potassium channels -- Health aspects
Abstract

Cystic fibrosis results from mutations in the cystic fibrosis transmembrane conductance regulator (CFTR) anion channel, ultimately leading to diminished transepithelial anion secretion and mucociliary clearance. CFTR correctors are therapeutics that restore the folding/trafficking of mutated CFTR to the plasma membrane. The large- conductance calcium-activated potassium channel ([BK.sub.Ca], [K.sub.Ca]1.1) is also critical for maintaining lung airway surface liquid (ASL) volume. Here, we show that the class 2 (C2) CFTR corrector VX-445 (elexacaftor) induces [K.sup.+] secretion across WT and F508del CFTR primary human bronchial epithelial cells (HBEs), which was entirely inhibited by the [BK.sub.Ca] antagonist paxilline. Similar results were observed with VX-121, a corrector under clinical evaluation. Whole-cell patch-clamp recordings verified that CFTR correctors potentiated [BK.sub.Ca] activity from both primary HBEs and HEK cells stably expressing the a subunit (HEK-BK cells). Furthermore, excised patch-clamp recordings from HEK-BK cells verified direct action on the channel and demonstrated a significant increase in open probability. In mouse mesenteric artery, VX-445 induced a paxilline- sensitive vasorelaxation of preconstricted arteries. VX-445 also reduced firing frequency in primary rat hippocampal and cortical neurons. We raise the possibilities that C2 CFTR correctors gain additional clinical benefit by activation of [BK.sub.Ca] in the lung yet may lead to adverse events through [BK.sub.Ca] activation elsewhere., Introduction Cystic fibrosis (CF) affects approximately 40,000 individuals in the United States and approximately 100,000 people worldwide (1, 2). The pathogenesis of CF is the result of mutations to the [...]

Published
2024
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3. TP53 Sequencing and p53 Immunohistochemistry Predict Outcomes When Bevacizumab Is Added to Frontline Chemotherapy in Endometrial Cancer: An NRG Oncology/Gynecologic Oncology Group Study.

Author

Thiel, Kristina, Devor, Eric, Filiaci, Virginia, Mutch, David, Moxley, Katherine, Alvarez Secord, Angeles, McDonald, Megan, Mathews, Cara, Cosgrove, Casey, Dewdney, Summer, Aghajanian, Carol, Samuelson, Megan, Lankes, Heather, Soslow, Robert, Leslie, Kimberly, and Tewari, Krishnansu

Subjects
Antineoplastic Combined Chemotherapy Protocols, Bevacizumab, Endometrial Neoplasms, Female, Humans, Immunohistochemistry, Mutation, Sirolimus, Tumor Suppressor Protein p53
Abstract

PURPOSE: The status of p53 in a tumor can be inferred by next-generation sequencing (NGS) or by immunohistochemistry (IHC). We examined the association between p53 IHC and sequence and whether p53 IHC alone, or integrated with TP53 NGS, predicts the outcome. METHODS: From GOG-86P, a randomized phase II study of chemotherapy combined with either bevacizumab or temsirolimus in advanced endometrial cancer, 213 cases had p53 protein expression data measured by IHC and TP53 NGS data. An analysis was designed to integrate p53 expression by IHC with the presence or absence of a TP53 mutation. These variables were further correlated with progression-free survival (PFS) and overall survival (OS) in the chemotherapy plus bevacizumab arms versus the chemotherapy plus temsirolimus arm. RESULTS: In the analysis of p53 IHC, the most striking treatment effect favoring bevacizumab was in cases where p53 was overexpressed (PFS hazard ratio [HR]: 0.46, 95% CI, 0.26 to 0.88; OS HR: 0.31, 95% CI, 0.16 to 0.62). On integrated analysis, patients with TP53 missense mutations and p53 protein overexpression had a similar treatment effect on PFS (HR: 0.41, 95% CI, 0.22 to 0.83) and OS (HR: 0.28, 95% CI, 0.14 to 0.59) favoring bevacizumab plus chemotherapy relative to temsirolimus plus chemotherapy. Concordance between TP53 NGS and p53 IHC was 88%. Concordance was 92% when cases with TP53 mutations and POLE mutations or mismatch repair deficiency were removed. CONCLUSION: IHC for p53 alone or when integrated with sequencing for TP53 identifies a specific, high-risk tumor genotype/phenotype for which bevacizumab is particularly beneficial in improving outcomes when combined with chemotherapy.

Published
2022

6. Optical imaging and spectroscopy for the study of the human brain: status report

Author

Ayaz, Hasan, Baker, Wesley B, Blaney, Giles, Boas, David A, Bortfeld, Heather, Brady, Kenneth, Brake, Joshua, Brigadoi, Sabrina, Buckley, Erin M, Carp, Stefan A, Cooper, Robert J, Cowdrick, Kyle R, Culver, Joseph P, Dan, Ippeita, Dehghani, Hamid, Devor, Anna, Durduran, Turgut, Eggebrecht, Adam T, Emberson, Lauren L, Fang, Qianqian, Fantini, Sergio, Franceschini, Maria Angela, Fischer, Jonas B, Gervain, Judit, Hirsch, Joy, Hong, Keum-Shik, Horstmeyer, Roarke, Kainerstorfer, Jana M, Ko, Tiffany S, Licht, Daniel J, Liebert, Adam, Luke, Robert, Lynch, Jennifer M, Mesquida, Jaume, Mesquita, Rickson C, Naseer, Noman, Novi, Sergio L, Orihuela-Espina, Felipe, O’Sullivan, Thomas D, Peterka, Darcy S, Pifferi, Antonio, Pollonini, Luca, Sassaroli, Angelo, Sato, João Ricardo, Scholkmann, Felix, Spinelli, Lorenzo, Srinivasan, Vivek J, St. Lawrence, Keith, Tachtsidis, Ilias, Tong, Yunjie, Torricelli, Alessandro, Urner, Tara, Wabnitz, Heidrun, Wolf, Martin, Wolf, Ursula, Xu, Shiqi, Yang, Changhuei, Yodh, Arjun G, Yücel, Meryem A, and Zhou, Wenjun

Subjects
Biomedical and Clinical Sciences, Engineering, Biomedical Engineering, Biomedical Imaging, Bioengineering, Neurosciences, Neurological, Mental health, diffuse optics, optical spectroscopy, optical imaging, functional neuroscience, NIRS, DCS, Medical Biotechnology, Biomedical engineering
Abstract

This report is the second part of a comprehensive two-part series aimed at reviewing an extensive and diverse toolkit of novel methods to explore brain health and function. While the first report focused on neurophotonic tools mostly applicable to animal studies, here, we highlight optical spectroscopy and imaging methods relevant to noninvasive human brain studies. We outline current state-of-the-art technologies and software advances, explore the most recent impact of these technologies on neuroscience and clinical applications, identify the areas where innovation is needed, and provide an outlook for the future directions.

Published
2022

7. Multimodal monitoring of human cortical organoids implanted in mice reveal functional connection with visual cortex

Author

Wilson, Madison N, Thunemann, Martin, Liu, Xin, Lu, Yichen, Puppo, Francesca, Adams, Jason W, Kim, Jeong-Hoon, Ramezani, Mehrdad, Pizzo, Donald P, Djurovic, Srdjan, Andreassen, Ole A, Mansour, Abed AlFatah, Gage, Fred H, Muotri, Alysson R, Devor, Anna, and Kuzum, Duygu

Subjects
Biomedical and Clinical Sciences, Engineering, Biomedical Engineering, Neurosciences, Physical Sciences, Brain Disorders, Neurological, Humans, Animals, Mice, Neurons, Brain, Prostheses and Implants, Organoids, Visual Cortex
Abstract

Human cortical organoids, three-dimensional neuronal cultures, are emerging as powerful tools to study brain development and dysfunction. However, whether organoids can functionally connect to a sensory network in vivo has yet to be demonstrated. Here, we combine transparent microelectrode arrays and two-photon imaging for longitudinal, multimodal monitoring of human cortical organoids transplanted into the retrosplenial cortex of adult mice. Two-photon imaging shows vascularization of the transplanted organoid. Visual stimuli evoke electrophysiological responses in the organoid, matching the responses from the surrounding cortex. Increases in multi-unit activity (MUA) and gamma power and phase locking of stimulus-evoked MUA with slow oscillations indicate functional integration between the organoid and the host brain. Immunostaining confirms the presence of human-mouse synapses. Implantation of transparent microelectrodes with organoids serves as a versatile in vivo platform for comprehensive evaluation of the development, maturation, and functional integration of human neuronal networks within the mouse brain.

Published
2022

8. Neurophotonic tools for microscopic measurements and manipulation: status report

Author

Abdelfattah, Ahmed S, Ahuja, Sapna, Akkin, Taner, Allu, Srinivasa Rao, Brake, Joshua, Boas, David A, Buckley, Erin M, Campbell, Robert E, Chen, Anderson I, Cheng, Xiaojun, Čižmár, Tomáš, Costantini, Irene, De Vittorio, Massimo, Devor, Anna, Doran, Patrick R, Khatib, Mirna El, Emiliani, Valentina, Fomin-Thunemann, Natalie, Fainman, Yeshaiahu, Fernandez-Alfonso, Tomas, Ferri, Christopher GL, Gilad, Ariel, Han, Xue, Harris, Andrew, Hillman, Elizabeth MC, Hochgeschwender, Ute, Holt, Matthew G, Ji, Na, Kılıç, Kıvılcım, Lake, Evelyn MR, Li, Lei, Li, Tianqi, Mächler, Philipp, Miller, Evan W, Mesquita, Rickson C, Nadella, KM Naga Srinivas, Nägerl, U Valentin, Nasu, Yusuke, Nimmerjahn, Axel, Ondráčková, Petra, Pavone, Francesco S, Campos, Citlali Perez, Peterka, Darcy S, Pisano, Filippo, Pisanello, Ferruccio, Puppo, Francesca, Sabatini, Bernardo L, Sadegh, Sanaz, Sakadzic, Sava, Shoham, Shy, Shroff, Sanaya N, Silver, R Angus, Sims, Ruth R, Smith, Spencer L, Srinivasan, Vivek J, Thunemann, Martin, Tian, Lei, Tian, Lin, Troxler, Thomas, Valera, Antoine, Vaziri, Alipasha, Vinogradov, Sergei A, Vitale, Flavia, Wang, Lihong V, Uhlířová, Hana, Xu, Chris, Yang, Changhuei, Yang, Mu-Han, Yellen, Gary, Yizhar, Ofer, and Zhao, Yongxin

Subjects
Engineering, Biomedical and Clinical Sciences, Neurosciences, Biomedical Engineering, 1.1 Normal biological development and functioning, Underpinning research, Neurological, optical imaging, molecular sensors, optogenetics, fluorescence, label free, blood flow, multimodal, Medical Biotechnology, Biomedical engineering
Abstract

Neurophotonics was launched in 2014 coinciding with the launch of the BRAIN Initiative focused on development of technologies for advancement of neuroscience. For the last seven years, Neurophotonics' agenda has been well aligned with this focus on neurotechnologies featuring new optical methods and tools applicable to brain studies. While the BRAIN Initiative 2.0 is pivoting towards applications of these novel tools in the quest to understand the brain, this status report reviews an extensive and diverse toolkit of novel methods to explore brain function that have emerged from the BRAIN Initiative and related large-scale efforts for measurement and manipulation of brain structure and function. Here, we focus on neurophotonic tools mostly applicable to animal studies. A companion report, scheduled to appear later this year, will cover diffuse optical imaging methods applicable to noninvasive human studies. For each domain, we outline the current state-of-the-art of the respective technologies, identify the areas where innovation is needed, and provide an outlook for the future directions.

Published
2022

10. Mutated p53 portends improvement in outcomes when bevacizumab is combined with chemotherapy in advanced/recurrent endometrial cancer: An NRG Oncology study

Author

Leslie, Kimberly K, Filiaci, Virginia L, Mallen, Adrianne R, Thiel, Kristina W, Devor, Eric J, Moxley, Katherine, Richardson, Debra, Mutch, David, Secord, Angeles Alvarez, Tewari, Krishnansu S, McDonald, Megan E, Mathews, Cara, Cosgrove, Casey, Dewdney, Summer, Casablanca, Yovanni, Jackson, Amanda, Rose, Peter G, Zhou, XunClare, McHale, Michael, Lankes, Heather, Levine, Douglas A, and Aghajanian, Carol

Subjects
Clinical Research, Genetics, Uterine Cancer, Cancer, Evaluation of treatments and therapeutic interventions, 6.1 Pharmaceuticals, Angiogenesis Inhibitors, Antineoplastic Combined Chemotherapy Protocols, Bevacizumab, Carboplatin, Clinical Trials, Phase II as Topic, Endometrial Neoplasms, Epothilones, Female, Genes, p53, Humans, Mutation, Neoplasm Recurrence, Local, Neoplasm Staging, Paclitaxel, Progression-Free Survival, Randomized Controlled Trials as Topic, Sirolimus, Survival Rate, Treatment Outcome, Tumor Suppressor Protein p53, Endometrial cancer, Chemotherapy, p53, Oncology and Carcinogenesis, Paediatrics and Reproductive Medicine, Oncology & Carcinogenesis
Abstract

BackgroundSuccessfully combining targeted agents with chemotherapy is an important future goal for cancer therapy. However, an improvement in patient outcomes requires an enhanced understanding of the tumor biomarkers that predict for drug sensitivity. NRG Oncology/Gynecologic Oncology Group (GOG) Study GOG-86P was one of the first attempts to combine targeted agents (bevacizumab or temsirolimus) with chemotherapy in patients with advanced endometrial cancer. Herein we performed exploratory analyses to examine the relationship between mutations in TP53, the most commonly mutated gene in cancer, with outcomes on GOG-86P.MethodsTP53 mutational status was determined and correlated with progression-free survival (PFS) and overall survival (OS) on GOG-86P.ResultsMutations in TP53 were associated with improved PFS and OS for patients that received bevacizumab as compared to temsirolimus (PFS: HR 0.48, 95% CI 0.31, 0.75; OS: HR: 0.61, 95% CI 0.38, 0.98). By contrast, there was no statistically significant difference in PFS or OS between arms for cases with WT TP53.ConclusionsThis exploratory study suggests that combining chemotherapy with bevacizumab, but not temsirolimus, may enhance PFS and OS for patients whose tumors harbor mutant p53. These data set the stage for larger clinical studies evaluating the potential of TP53 mutational status as a biomarker to guide choice of treatment for endometrial cancer patients. Clintrials.gov: NCT00977574.

Published
2021

14. All-Optical Electrophysiology in hiPSC-Derived Neurons With Synthetic Voltage Sensors

Author

Puppo, Francesca, Sadegh, Sanaz, Trujillo, Cleber A, Thunemann, Martin, Campbell, Evan P, Vandenberghe, Matthieu, Shan, Xiwei, Akkouh, Ibrahim A, Miller, Evan W, Bloodgood, Brenda L, Silva, Gabriel A, Dale, Anders M, Einevoll, Gaute T, Djurovic, Srdjan, Andreassen, Ole A, Muotri, Alysson R, and Devor, Anna

Subjects
Biomedical and Clinical Sciences, Neurosciences, Stem Cell Research, Genetics, Stem Cell Research - Induced Pluripotent Stem Cell, Stem Cell Research - Induced Pluripotent Stem Cell - Human, 1.1 Normal biological development and functioning, Neurological, stem cells, voltage imaging, BeRST-1, phenotyping, optogenetics, Biochemistry and Cell Biology, Biochemistry and cell biology, Biological psychology
Abstract

Voltage imaging and "all-optical electrophysiology" in human induced pluripotent stem cell (hiPSC)-derived neurons have opened unprecedented opportunities for high-throughput phenotyping of activity in neurons possessing unique genetic backgrounds of individual patients. While prior all-optical electrophysiology studies relied on genetically encoded voltage indicators, here, we demonstrate an alternative protocol using a synthetic voltage sensor and genetically encoded optogenetic actuator that generate robust and reproducible results. We demonstrate the functionality of this method by measuring spontaneous and evoked activity in three independent hiPSC-derived neuronal cell lines with distinct genetic backgrounds.

Published
2021

18. Author Correction: Understanding the genetic determinants of the brain with MOSTest.

Author

van der Meer, Dennis, Frei, Oleksandr, Kaufmann, Tobias, Shadrin, Alexey A, Devor, Anna, Smeland, Olav B, Thompson, Wesley K, Fan, Chun Chieh, Holland, Dominic, Westlye, Lars T, Andreassen, Ole A, and Dale, Anders M

Abstract

An amendment to this paper has been published and can be accessed via a link at the top of the paper.

Published
2020

19. Understanding the genetic determinants of the brain with MOSTest.

Author

van der Meer, Dennis, Frei, Oleksandr, Kaufmann, Tobias, Shadrin, Alexey A, Devor, Anna, Smeland, Olav B, Thompson, Wesley K, Fan, Chun Chieh, Holland, Dominic, Westlye, Lars T, Andreassen, Ole A, and Dale, Anders M

Subjects
Nervous System, Brain, Humans, Genetic Predisposition to Disease, Multivariate Analysis, Female, Genome-Wide Association Study
Abstract

Regional brain morphology has a complex genetic architecture, consisting of many common polymorphisms with small individual effects. This has proven challenging for genome-wide association studies (GWAS). Due to the distributed nature of genetic signal across brain regions, multivariate analysis of regional measures may enhance discovery of genetic variants. Current multivariate approaches to GWAS are ill-suited for complex, large-scale data of this kind. Here, we introduce the Multivariate Omnibus Statistical Test (MOSTest), with an efficient computational design enabling rapid and reliable inference, and apply it to 171 regional brain morphology measures from 26,502 UK Biobank participants. At the conventional genome-wide significance threshold of α = 5 × 10-8, MOSTest identifies 347 genomic loci associated with regional brain morphology, more than any previous study, improving upon the discovery of established GWAS approaches more than threefold. Our findings implicate more than 5% of all protein-coding genes and provide evidence for gene sets involved in neuron development and differentiation.

Published
2020

20. Multimodal monitoring of human cortical organoids implanted in mice reveal functional connection with visual cortex

Author

Madison N. Wilson, Martin Thunemann, Xin Liu, Yichen Lu, Francesca Puppo, Jason W. Adams, Jeong-Hoon Kim, Mehrdad Ramezani, Donald P. Pizzo, Srdjan Djurovic, Ole A. Andreassen, Abed AlFatah Mansour, Fred H. Gage, Alysson R. Muotri, Anna Devor, and Duygu Kuzum

Subjects
Science
Abstract

Neuronal organoids derived from human induced pluripotent stem cells can be transplanted and integrated into the rodent cortex for the study of brain development and function. Here the authors demonstrate use of transparent graphene microelectrodes and two photon imaging for longitudinal, multimodal monitoring of functional connectivity between human iPSC derived neuronal organoids and the mouse cortex.

Published
2022
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22. Antibody‐Drug Conjugates to Treat Bacterial Biofilms via Targeting and Extracellular Drug Release

Author

Anne Tvilum, Mikkel I. Johansen, Lærke N. Glud, Diana M. Ivarsen, Amanda B. Khamas, Sheiliza Carmali, Snehit Satish Mhatre, Ane B. Søgaard, Emma Faddy, Lisanne deVor, Suzan H. M. Rooijakkers, Lars Østergaard, Nis P. Jørgensen, Rikke L. Meyer, and Alexander N. Zelikin

Subjects
antibody‐drug‐conjugates, antimicrobials, biofilms, drug targeting, Science
Abstract

Abstract The treatment of implant‐associated bacterial infections and biofilms is an urgent medical need and a grand challenge because biofilms protect bacteria from the immune system and harbor antibiotic‐tolerant persister cells. This need is addressed herein through an engineering of antibody‐drug conjugates (ADCs) that contain an anti‐neoplastic drug mitomycin C, which is also a potent antimicrobial against biofilms. The ADCs designed herein release the conjugated drug without cell entry, via a novel mechanism of drug release which likely involves an interaction of ADC with the thiols on the bacterial cell surface. ADCs targeted toward bacteria are superior by the afforded antimicrobial effects compared to the non‐specific counterpart, in suspension and within biofilms, in vitro, and in an implant‐associated murine osteomyelitis model in vivo. The results are important in developing ADC for a new area of application with a significant translational potential, and in addressing an urgent medical need of designing a treatment of bacterial biofilms.

Published
2023
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23. What’s Next for Modernizing Gender, Sex, and Sexual Orientation Terminology in Digital Health Systems? Viewpoint on Research and Implementation Priorities

Author

Roz Queen, Karen L Courtney, Francis Lau, Kelly Davison, Aaron Devor, and Marcy G Antonio

Subjects
Computer applications to medicine. Medical informatics, R858-859.7, Public aspects of medicine, RA1-1270
Abstract

In 2021, Canada Health Infoway and the University of Victoria's Gender, Sex, and Sexual Orientation Research Team hosted a series of discussions to successfully and safely modernize gender, sex, and sexual orientation information practices within digital health systems. Five main topic areas were covered: (1) terminology standards; (2) digital health and electronic health record functions; (3) policy and practice implications; (4) primary care settings; and (5) acute and tertiary care settings. In this viewpoint paper, we provide priorities for future research and implementation projects and recommendations that emerged from these discussions.

Published
2023
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24. Aerobic exercise reverses aging-induced depth-dependent decline in cerebral microcirculation

Author

Paul Shin, Qi Pian, Hidehiro Ishikawa, Gen Hamanaka, Emiri T Mandeville, Shuzhen Guo, Buyin Fu, Mohammed Alfadhel, Srinivasa Rao Allu, Ikbal Şencan-Eğilmez, Baoqiang Li, Chongzhao Ran, Sergei A Vinogradov, Cenk Ayata, Eng Lo, Ken Arai, Anna Devor, and Sava Sakadžić

Subjects
aging, exercise, cerebral microcirculation, cerebral oxygenation, white matter, two-photon microscopy, Medicine, Science, Biology (General), QH301-705.5
Abstract

Aging is a major risk factor for cognitive impairment. Aerobic exercise benefits brain function and may promote cognitive health in older adults. However, underlying biological mechanisms across cerebral gray and white matter are poorly understood. Selective vulnerability of the white matter to small vessel disease and a link between white matter health and cognitive function suggests a potential role for responses in deep cerebral microcirculation. Here, we tested whether aerobic exercise modulates cerebral microcirculatory changes induced by aging. To this end, we carried out a comprehensive quantitative examination of changes in cerebral microvascular physiology in cortical gray and subcortical white matter in mice (3–6 vs. 19–21 months old), and asked whether and how exercise may rescue age-induced deficits. In the sedentary group, aging caused a more severe decline in cerebral microvascular perfusion and oxygenation in deep (infragranular) cortical layers and subcortical white matter compared with superficial (supragranular) cortical layers. Five months of voluntary aerobic exercise partly renormalized microvascular perfusion and oxygenation in aged mice in a depth-dependent manner, and brought these spatial distributions closer to those of young adult sedentary mice. These microcirculatory effects were accompanied by an improvement in cognitive function. Our work demonstrates the selective vulnerability of the deep cortex and subcortical white matter to aging-induced decline in microcirculation, as well as the responsiveness of these regions to aerobic exercise.

Published
2023
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26. Complex Oscillatory Waves Emerging from Cortical Organoids Model Early Human Brain Network Development

Author

Trujillo, Cleber A, Gao, Richard, Negraes, Priscilla D, Gu, Jing, Buchanan, Justin, Preissl, Sebastian, Wang, Allen, Wu, Wei, Haddad, Gabriel G, Chaim, Isaac A, Domissy, Alain, Vandenberghe, Matthieu, Devor, Anna, Yeo, Gene W, Voytek, Bradley, and Muotri, Alysson R

Subjects
Biochemistry and Cell Biology, Biomedical and Clinical Sciences, Biological Sciences, Brain Disorders, Neurosciences, Neurological, Biological Clocks, Cells, Cultured, Cerebellar Cortex, Electromagnetic Radiation, Gene Expression Profiling, Humans, Induced Pluripotent Stem Cells, Neocortex, Nerve Net, Neurogenesis, Organoids, Signal Transduction, Single-Cell Analysis, Synaptic Transmission, gamma-Aminobutyric Acid, cortical organoids, network oscillations, phase-amplitude coupling, preterm electroencephalography, single-cell transcriptomics, stem cells, Medical and Health Sciences, Developmental Biology, Biological sciences, Biomedical and clinical sciences
Abstract

Structural and transcriptional changes during early brain maturation follow fixed developmental programs defined by genetics. However, whether this is true for functional network activity remains unknown, primarily due to experimental inaccessibility of the initial stages of the living human brain. Here, we developed human cortical organoids that dynamically change cellular populations during maturation and exhibited consistent increases in electrical activity over the span of several months. The spontaneous network formation displayed periodic and regular oscillatory events that were dependent on glutamatergic and GABAergic signaling. The oscillatory activity transitioned to more spatiotemporally irregular patterns, and synchronous network events resembled features similar to those observed in preterm human electroencephalography. These results show that the development of structured network activity in a human neocortex model may follow stable genetic programming. Our approach provides opportunities for investigating and manipulating the role of network activity in the developing human cortex.

Published
2019

27. Efficient non-degenerate two-photon excitation for fluorescence microscopy.

Author

Sadegh, Sanaz, Yang, Mu-Han, Ferri, Christopher GL, Thunemann, Martin, Saisan, Payam A, Wei, Zhe, Rodriguez, Erik A, Adams, Stephen R, Kiliç, Kivilcim, Boas, David A, Sakadžić, Sava, Devor, Anna, and Fainman, Yeshaiahu

Subjects
Bioengineering, Optical Physics, Electrical and Electronic Engineering, Communications Technologies, Optics
Abstract

Non-degenerate two-photon excitation (ND-TPE) has been explored in two-photon excitation microscopy. However, a systematic study of the efficiency of ND-TPE to guide the selection of fluorophore excitation wavelengths is missing. We measured the relative non-degenerate two-photon absorption cross-section (ND-TPACS) of several commonly used fluorophores (two fluorescent proteins and three small-molecule dyes) and generated 2-dimensional ND-TPACS spectra. We observed that the shape of a ND-TPACS spectrum follows that of the corresponding degenerate two-photon absorption cross-section (D-TPACS) spectrum, but is higher in magnitude. We found that the observed enhancements are higher than theoretical predictions.

Published
2019

28. Awake Mouse Imaging: From Two-Photon Microscopy to Blood Oxygen Level-Dependent Functional Magnetic Resonance Imaging.

Author

Desjardins, Michèle, Kılıç, Kıvılcım, Thunemann, Martin, Mateo, Celine, Holland, Dominic, Ferri, Christopher, Cremonesi, Jonathan, Li, Baoqiang, Cheng, Qun, Weldy, Kimberly, Saisan, Payam, Kleinfeld, David, Komiyama, Takaki, Liu, Thomas, Bussell, Robert, Wong, Eric, Scadeng, Miriam, Dunn, Andrew, Boas, David, Sakadžić, Sava, Mandeville, Joseph, Buxton, Richard, Dale, Anders, and Devor, Anna

Subjects
Blood oxygen level–dependent (BOLD) signal, Cerebral blood flow, Intrinsic optical signals, Optogenetic, Two-photon microscopy, fMRI, Animals, Magnetic Resonance Imaging, Mice, Models, Animal, Neuroimaging, Optical Imaging, Optogenetics, Somatosensory Cortex, Wakefulness
Abstract

BACKGROUND: Functional magnetic resonance imaging (fMRI) in awake behaving mice is well positioned to bridge the detailed cellular-level view of brain activity, which has become available owing to recent advances in microscopic optical imaging and genetics, to the macroscopic scale of human noninvasive observables. However, though microscopic (e.g., two-photon imaging) studies in behaving mice have become a reality in many laboratories, awake mouse fMRI remains a challenge. Owing to variability in behavior among animals, performing all types of measurements within the same subject is highly desirable and can lead to higher scientific rigor. METHODS: We demonstrated blood oxygenation level-dependent fMRI in awake mice implanted with long-term cranial windows that allowed optical access for microscopic imaging modalities and optogenetic stimulation. We started with two-photon imaging of single-vessel diameter changes (n = 1). Next, we implemented intrinsic optical imaging of blood oxygenation and flow combined with laser speckle imaging of blood flow obtaining a mesoscopic picture of the hemodynamic response (n = 16). Then we obtained corresponding blood oxygenation level-dependent fMRI data (n = 5). All measurements could be performed in the same mice in response to identical sensory and optogenetic stimuli. RESULTS: The cranial window did not deteriorate the quality of fMRI and allowed alternation between imaging modalities in each subject. CONCLUSIONS: This report provides a proof of feasibility for multiscale imaging approaches in awake mice. In the future, this protocol could be extended to include complex cognitive behaviors translatable to humans, such as sensory discrimination or attention.

Published
2019

29. Correlation Structure in Micro-ECoG Recordings is Described by Spatially Coherent Components.

Author

Rogers, Nicholas, Hermiz, John, Ganji, Mehran, Kaestner, Erik, Kılıç, Kıvılcım, Hossain, Lorraine, Thunemann, Martin, Cleary, Daniel R, Carter, Bob S, Barba, David, Devor, Anna, Halgren, Eric, Dayeh, Shadi A, and Gilja, Vikash

Subjects
Cerebral Cortex, Animals, Humans, Mice, Polymers, Electroencephalography, Records, Electrodes, Implanted, Microelectrodes, Electric Conductivity, Electrophysiological Phenomena, Brain-Computer Interfaces, Electrocorticography, Electrodes, Implanted, Bioinformatics, Mathematical Sciences, Biological Sciences, Information and Computing Sciences
Abstract

Electrocorticography (ECoG) is becoming more prevalent due to improvements in fabrication and recording technology as well as its ease of implantation compared to intracortical electrophysiology, larger cortical coverage, and potential advantages for use in long term chronic implantation. Given the flexibility in the design of ECoG grids, which is only increasing, it remains an open question what geometry of the electrodes is optimal for an application. Conductive polymer, PEDOT:PSS, coated microelectrodes have an advantage that they can be made very small without losing low impedance. This makes them suitable for evaluating the required granularity of ECoG recording in humans and experimental animals. We used two-dimensional (2D) micro-ECoG grids to record intra-operatively in humans and during acute implantations in mouse with separation distance between neighboring electrodes (i.e., pitch) of 0.4 mm and 0.2/0.25 mm respectively. To assess the spatial properties of the signals, we used the average correlation between electrodes as a function of the pitch. In agreement with prior studies, we find a strong frequency dependence in the spatial scale of correlation. By applying independent component analysis (ICA), we find that the spatial pattern of correlation is largely due to contributions from multiple spatially extended, time-locked sources present at any given time. Our analysis indicates the presence of spatially structured activity down to the sub-millimeter spatial scale in ECoG despite the effects of volume conduction, justifying the use of dense micro-ECoG grids.

Published
2019

30. Alterations in Schizophrenia-Associated Genes Can Lead to Increased Power in Delta Oscillations

Author

Mäki-Marttunen, Tuomo, Krull, Florian, Bettella, Francesco, Hagen, Espen, Næss, Solveig, Ness, Torbjørn V, Moberget, Torgeir, Elvsåshagen, Torbjørn, Metzner, Christoph, Devor, Anna, Edwards, Andrew G, Fyhn, Marianne, Djurovic, Srdjan, Dale, Anders M, Andreassen, Ole A, and Einevoll, Gaute T

Subjects
Human Genome, Neurosciences, Serious Mental Illness, Mental Health, Schizophrenia, Genetics, Brain Disorders, 1.1 Normal biological development and functioning, Underpinning research, Aetiology, 2.1 Biological and endogenous factors, Adult, Animals, Delta Rhythm, Female, Genetic Variation, Humans, Male, Mice, Models, Neurological, Nerve Net, Visual Cortex, Young Adult, forward modeling of EEG, functional genomics, ion channels, multicompartmental neuron modeling, schizophrenia genetics, Psychology, Cognitive Sciences, Experimental Psychology
Abstract

Genome-wide association studies have implicated many ion channels in schizophrenia pathophysiology. Although the functions of these channels are relatively well characterized by single-cell studies, the contributions of common variation in these channels to neurophysiological biomarkers and symptoms of schizophrenia remain elusive. Here, using computational modeling, we show that a common biomarker of schizophrenia, namely, an increase in delta-oscillation power, may be a direct consequence of altered expression or kinetics of voltage-gated ion channels or calcium transporters. Our model of a circuit of layer V pyramidal cells highlights multiple types of schizophrenia-related variants that contribute to altered dynamics in the delta-frequency band. Moreover, our model predicts that the same membrane mechanisms that increase the layer V pyramidal cell network gain and response to delta-frequency oscillations may also cause a deficit in a single-cell correlate of the prepulse inhibition, which is a behavioral biomarker highly associated with schizophrenia.

Published
2019

32. KCa3.1 in Epithelia

Author

Devor, Daniel C., Thibodeau, Patrick H., Hamilton, Kirk L., Hamilton, Kirk L., editor, and Devor, Daniel C., editor

Published
2020
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33. FGFR2 mutations promote endometrial cancer progression through dual engagement of EGFR and Notch signalling pathways

Author

Garima Dixit, Jesus Gonzalez‐Bosquet, Joseph Skurski, Eric J. Devor, Erin B. Dickerson, Warren B. Nothnick, Priya D. Issuree, Kimberly K. Leslie, and Thorsten Maretzky

Subjects
a disintegrin and metalloprotease 10, a disintegrin and metalloprotease 17, endometrial cancer, epidermal growth factor receptor, fibroblast growth factor receptor 2, Notch, Medicine (General), R5-920
Abstract

Abstract Background Mutations in the receptor tyrosine kinase gene fibroblast growth factor receptor 2 (FGFR2) occur at a high frequency in endometrial cancer (EC) and have been linked to advanced and recurrent disease. However, little is known about how these mutations drive carcinogenesis. Methods Differential transcriptomic analysis and two‐step quantitative real‐time PCR (qRT‐PCR) assays were applied to identify genes differentially expressed in two cohorts of EC patients carrying mutations in the FGFR2 gene as well as in EC cells harbouring mutations in the FGFR2. Candidate genes and target signalling pathways were investigated by qRT‐PCR assays, immunohistochemistry and bioinformatics analysis. The functional roles of differently regulated genes were analysed using in vitro and in vivo experiments, including 3D‐orthotypic co‐culture systems, cell proliferation and migration protocols, as well as colony and focus formation assays together with murine xenograft tumour models. The molecular mechanisms were examined using CRISPR/Cas9‐based loss‐of‐function and pharmacological approaches as well as luciferase reporter techniques, cell‐based ectodomain shedding assays and bioinformatics analysis. Results We show that common FGFR2 mutations significantly enhance the sensitivity to FGF7‐mediated activation of a disintegrin and metalloprotease (ADAM)17 and subsequent transactivation of the epidermal growth factor receptor (EGFR). We further show that FGFR2 mutants trigger the activation of ADAM10‐mediated Notch signalling in an ADAM17‐dependent manner, highlighting for the first time an intimate cooperation between EGFR and Notch pathways in EC. Differential transcriptomic analysis in EC cells in a cohort of patients carrying mutations in the FGFR2 gene identified a strong association between FGFR2 mutations and increased expression of members of the Notch pathway and ErbB receptor family. Notably, FGFR2 mutants are not constitutively active but require FGF7 stimulation to reprogram Notch and EGFR pathway components, resulting in ADAM17‐dependent oncogenic growth. Conclusions These findings highlight a pivotal role of ADAM17 in the pathogenesis of EC and provide a compelling rationale for targeting ADAM17 protease activity in FGFR2‐driven cancers.

Published
2023
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34. From molecule to oblivion: dedicated brain circuitry underlies anesthetic loss of consciousness permitting pain-free surgery

Author

Mark Baron and Marshall Devor

Subjects
anesthesia, consciousness, loss-of-consciousness, mesopontine tegmentum, MPTA, Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571
Abstract

The canonical view of how general anesthetics induce loss-of-consciousness (LOC) permitting pain-free surgery posits that anesthetic molecules, distributed throughout the CNS, suppress neural activity globally to levels at which the cerebral cortex can no longer sustain conscious experience. We support an alternative view that LOC, in the context of GABAergic anesthesia at least, results from anesthetic exposure of a small number of neurons in a focal brainstem nucleus, the mesopontine tegmental anesthesia area (MPTA). The various sub-components of anesthesia, in turn, are effected in distant locations, driven by dedicated axonal pathways. This proposal is based on the observations that microinjection of infinitesimal amounts of GABAergic agents into the MPTA, and only there, rapidly induces LOC, and that lesioning the MPTA renders animals relatively insensitive to these agents delivered systemically. Recently, using chemogenetics, we identified a subpopulation of MPTA “effector-neurons” which, when excited (not inhibited), induce anesthesia. These neurons contribute to well-defined ascending and descending axonal pathways each of which accesses a target region associated with a key anesthetic endpoint: atonia, anti-nociception, amnesia and LOC (by electroencephalographic criteria). Interestingly, the effector-neurons do not themselves express GABAA-receptors. Rather, the target receptors reside on a separate sub-population of presumed inhibitory interneurons. These are thought to excite the effectors by disinhibition, thus triggering anesthetic LOC.

Published
2023
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39. Therapist experiences and perspectives on moving beyond symptoms and into flourishing: a grounded theory analysis.

Author

Freetly Porter, Emma, Jessen, Mackenzie, Coleman, Jeremy J., Sinha, Sree, Devor, Nancy, Sauer-Zavala, Shannon, Levitt, Heidi, Tao, Karen, Zanarini, Mary, Farchione, Todd, Sandage, Steven J., and Owen, Jesse

Subjects
PSYCHOTHERAPY, PSYCHOLOGICAL resilience, COMMUNITY health services, MENTALIZATION, FOCUS groups, ACADEMIC medical centers, PSYCHODYNAMIC psychotherapy, INTERPROFESSIONAL relations, PSYCHOTHERAPIST attitudes, POSITIVE psychology, INTERVIEWING, DESCRIPTIVE statistics, SOCIAL worker attitudes, HOSPITAL medical staff, THEMATIC analysis, CLIENT relations, ATTITUDES of medical personnel, GROUNDED theory, PSYCHIATRIC hospitals, COGNITIVE therapy, DATA analysis software, VALUES (Ethics)
Abstract

Psychotherapy has historically focused on symptom reduction. However, there are calls for increasing our understanding of how psychotherapy impacts clients' flourishing. In this study, licensed mental health professionals and trainees across different clinical settings with diverse therapeutic orientations were interviewed about their perspectives on the cultivation of flourishing in psychotherapy, as well as their own personal experiences with flourishing. We were interested in understanding how therapists define flourishing, how they integrate flourishing into their work with clients, and any barriers or catalysts for engaging in this process. To do so, we conducted eight focus groups, and interviews were analyzed using grounded theory to form a hierarchy of categories. The results were used to create a three-part grounded theory. Results suggested that flourishing is a distinct concept from well-being that involves active engagement, emotional connection and meaning making. Our three-part grounded theory of flourishing elucidates how flourishing can be pursued by guiding clients towards their experiences of suffering in order to engage in meaning making and to identify their values, as well how systemic barriers can be navigated. Themes emerged related to the training of psychotherapists to promote flourishing, and the associated clinical and training implications are discussed [ABSTRACT FROM AUTHOR]

Published
2024
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40. Association between plasma leptin and cesarean section after induction of labor: a case control study

Author

Whitney Cowman, Sabrina M. Scroggins, Wendy S. Hamilton, Alexandra E. Karras, Noelle C. Bowdler, Eric J. Devor, Mark K. Santillan, and Donna A. Santillan

Subjects
Induction of labor, Fetal intolerance of labor, Cesarean section, Vaginal delivery, Leptin, Obesity, Gynecology and obstetrics, RG1-991
Abstract

Abstract Background Obesity in pregnancy is common, with more than 50% of pregnant women being overweight or obese. Obesity has been identified as an independent predictor of dysfunctional labor and is associated with increased risk of failed induction of labor resulting in cesarean section. Leptin, an adipokine, is secreted from adipose tissue under the control of the obesity gene. Concentrations of leptin increase with increasing percent body fat due to elevated leptin production from the adipose tissue of obese individuals. Interestingly, the placenta is also a major source of leptin production during pregnancy. Leptin has regulatory effects on neuronal tissue, vascular smooth muscle, and nonvascular smooth muscle systems. It has also been demonstrated that leptin has an inhibitory effect on myometrial contractility with both intensity and frequency of contractions decreased. These findings suggest that leptin may play an important role in dysfunctional labor and be associated with the outcome of induction of labor at term. Our aim is to determine whether maternal plasma leptin concentration is indicative of the outcome of induction of labor at term. We hypothesize that elevated maternal plasma leptin levels are associated with a failed term induction of labor resulting in a cesarean delivery. Methods In this case-control study, leptin was measured in 3rd trimester plasma samples. To analyze labor outcomes, 174 women were selected based on having undergone an induction of labor (IOL), (115 women with successful IOL and 59 women with a failed IOL). Plasma samples and clinical information were obtained from the UI Maternal Fetal Tissue Bank (IRB# 200910784). Maternal plasma leptin and total protein concentrations were measured using commercially available assays. Bivariate analyses and logistic regression models were constructed using regression identified clinically significant confounding variables. All variables were tested at significance level of 0.05. Results Women with failed IOL had higher maternal plasma leptin values (0.5 vs 0.3 pg, P = 0.01). These women were more likely to have obesity (mean BMI 32 vs 27 kg/m2, P = 0.0002) as well as require multiple induction methods (93% vs 73%, p = 0.008). Logistic regression showed Bishop score (OR 1.5, p

Published
2022
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41. Blocking autophagy overcomes resistance to dual histone deacetylase and proteasome inhibition in gynecologic cancer

Author

Jianling Bi, Yuping Zhang, Paige K. Malmrose, Haley A. Losh, Andreea M. Newtson, Eric J. Devor, Kristina W. Thiel, and Kimberly K. Leslie

Subjects
Cytology, QH573-671
Abstract

Abstract Histone deacetylase (HDAC) inhibitors and proteasome inhibitors have been approved by the FDA for the treatment of multiple myeloma and lymphoma, respectively, but have not achieved similar activity as single agents in solid tumors. Preclinical studies have demonstrated the activity of the combination of an HDAC inhibitor and a proteasome inhibitor in a variety of tumor models. However, the mechanisms underlying sensitivity and resistance to this combination are not well-understood. This study explores the role of autophagy in adaptive resistance to dual HDAC and proteasome inhibition. Studies focus on ovarian and endometrial gynecologic cancers, two diseases with high mortality and a need for novel treatment approaches. We found that nanomolar concentrations of the proteasome inhibitor ixazomib and HDAC inhibitor romidepsin synergistically induce cell death in the majority of gynecologic cancer cells and patient-derived organoid (PDO) models created using endometrial and ovarian patient tumor tissue. However, some models were not sensitive to this combination, and mechanistic studies implicated autophagy as the main mediator of cell survival in the context of dual HDAC and proteasome inhibition. Whereas the combination of ixazomib and romidepsin reduces autophagy in sensitive gynecologic cancer models, autophagy is induced following drug treatment of resistant cells. Pharmacologic or genetic inhibition of autophagy in resistant cells reverses drug resistance as evidenced by an enhanced anti-tumor response both in vitro and in vivo. Taken together, our findings demonstrate a role for autophagic-mediated cell survival in proteasome inhibitor and HDAC inhibitor-resistant gynecologic cancer cells. These data reveal a new approach to overcome drug resistance by inhibiting the autophagy pathway.

Published
2022
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42. Neurovascular coupling is preserved in chronic stroke recovery after targeted photothrombosis

Author

Smrithi Sunil, John Jiang, Shashwat Shah, Sreekanth Kura, Kivilcim Kilic, Sefik Evren Erdener, Cenk Ayata, Anna Devor, and David A. Boas

Subjects
Neurovascular coupling, Photothrombosis, Stroke recovery, Intrinsic optical signal imaging, Computer applications to medicine. Medical informatics, R858-859.7, Neurology. Diseases of the nervous system, RC346-429
Abstract

Functional neuroimaging, which measures hemodynamic responses to brain activity, has great potential for monitoring recovery in stroke patients and guiding rehabilitation during recovery. However, hemodynamic responses after stroke are almost always altered relative to responses in healthy subjects and it is still unclear if these alterations reflect the underlying brain physiology or if the alterations are purely due to vascular injury. In other words, we do not know the effect of stroke on neurovascular coupling and are therefore limited in our ability to use functional neuroimaging to accurately interpret stroke pathophysiology. To address this challenge, we simultaneously captured neural activity, through fluorescence calcium imaging, and hemodynamics, through intrinsic optical signal imaging, during longitudinal stroke recovery. Our data suggest that neurovascular coupling was preserved in the chronic phase of recovery (2 weeks and 4 weeks post-stoke) and resembled pre-stroke neurovascular coupling. This indicates that functional neuroimaging faithfully represents the underlying neural activity in chronic stroke. Further, neurovascular coupling in the sub-acute phase of stroke recovery was predictive of long-term behavioral outcomes. Stroke also resulted in increases in global brain oscillations, which showed distinct patterns between neural activity and hemodynamics. Increased neural excitability in the contralesional hemisphere was associated with increased contralesional intrahemispheric connectivity. Additionally, sub-acute increases in hemodynamic oscillations were associated with improved sensorimotor outcomes. Collectively, these results support the use of hemodynamic measures of brain activity post-stroke for predicting functional and behavioral outcomes.

Published
2023
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43. Neurovascular Network Explorer 2.0: A Simple Tool for Exploring and Sharing a Database of Optogenetically-evoked Vasomotion in Mouse Cortex In Vivo.

Author

Uhlirova, Hana, Tian, Peifang, Kılıç, Kıvılcım, Thunemann, Martin, Sridhar, Vishnu B, Chmelik, Radim, Bartsch, Hauke, Dale, Anders M, Devor, Anna, and Saisan, Payam A

Subjects
Cerebral Cortex, Somatosensory Cortex, Vasomotor System, Animals, Mice, Databases, Factual, Neural Networks, Computer, Neuroscience, Issue 135, Automatic Data Processing, Data Collection, Data Display, Databases as Topic, Search Engine, Neurosciences, neuroinformatics, graphical user interface, MATLAB, 2-photon imaging, somatosensory cortex, arterioles, blood flow, hemodynamics, cerebrovascular circulation, Neural Networks, Databases, Factual, Cognitive Sciences, Biochemistry and Cell Biology, Psychology
Abstract

The importance of sharing experimental data in neuroscience grows with the amount and complexity of data acquired and various techniques used to obtain and process these data. However, the majority of experimental data, especially from individual studies of regular-sized laboratories never reach wider research community. A graphical user interface (GUI) engine called Neurovascular Network Explorer 2.0 (NNE 2.0) has been created as a tool for simple and low-cost sharing and exploring of vascular imaging data. NNE 2.0 interacts with a database containing optogenetically-evoked dilation/constriction time-courses of individual vessels measured in mice somatosensory cortex in vivo by 2-photon microscopy. NNE 2.0 enables selection and display of the time-courses based on different criteria (subject, branching order, cortical depth, vessel diameter, arteriolar tree) as well as simple mathematical manipulation (e.g. averaging, peak-normalization) and data export. It supports visualization of the vascular network in 3D and enables localization of the individual functional vessel diameter measurements within vascular trees. NNE 2.0, its source code, and the corresponding database are freely downloadable from UCSD Neurovascular Imaging Laboratory website1. The source code can be utilized by the users to explore the associated database or as a template for databasing and sharing their own experimental results provided the appropriate format.

Published
2018

44. A stepwise neuron model fitting procedure designed for recordings with high spatial resolution: Application to layer 5 pyramidal cells

Author

Mäki-Marttunen, Tuomo, Halnes, Geir, Devor, Anna, Metzner, Christoph, Dale, Anders M, Andreassen, Ole A, and Einevoll, Gaute T

Subjects
Biomedical and Clinical Sciences, Neurosciences, Bioengineering, Animals, Automation, Laboratory, Calcium, Cerebral Cortex, Computer Simulation, Dendrites, Image Processing, Computer-Assisted, Ion Channels, Membrane Potentials, Models, Neurological, Pattern Recognition, Automated, Potassium, Pyramidal Cells, Synapses, Voltage-Sensitive Dye Imaging, Multi-compartmental neuron models, Biophysically detailed modeling, Model fitting using imaging data, Automated fitting methods, Parameter peeling, Psychology, Cognitive Sciences, Neurology & Neurosurgery
Abstract

BackgroundRecent progress in electrophysiological and optical methods for neuronal recordings provides vast amounts of high-resolution data. In parallel, the development of computer technology has allowed simulation of ever-larger neuronal circuits. A challenge in taking advantage of these developments is the construction of single-cell and network models in a way that faithfully reproduces neuronal biophysics with subcellular level of details while keeping the simulation costs at an acceptable level.New methodIn this work, we develop and apply an automated, stepwise method for fitting a neuron model to data with fine spatial resolution, such as that achievable with voltage sensitive dyes (VSDs) and Ca2+ imaging.ResultWe apply our method to simulated data from layer 5 pyramidal cells (L5PCs) and construct a model with reduced neuronal morphology. We connect the reduced-morphology neurons into a network and validate against simulated data from a high-resolution L5PC network model.Comparison with existing methodsOur approach combines features from several previously applied model-fitting strategies. The reduced-morphology neuron model obtained using our approach reliably reproduces the membrane-potential dynamics across the dendrites as predicted by the full-morphology model.ConclusionsThe network models produced using our method are cost-efficient and predict that interconnected L5PCs are able to amplify delta-range oscillatory inputs across a large range of network sizes and topologies, largely due to the medium after hyperpolarization mediated by the Ca2+-activated SK current.

Published
2018

48. High-resolution awake mouse fMRI at 14 Tesla

Author

Hike, David, primary, Liu, Xiaochen, additional, Xie, Zeping, additional, Zhang, Bei, additional, Choi, Sangcheon, additional, Zhou, Xiaoqing Alice, additional, Liu, Andy, additional, Murstein, Alyssa, additional, Jiang, Yuanyuan, additional, Devor, Anna, additional, and Yu, Xin, additional

Published
2024
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49. Understanding the nervous system: lessons from Frontiers in Neurophotonics

Author

De Koninck, Yves, primary, Alonso, Johanna, additional, Bancelin, Stéphane, additional, Béïque, Jean-Claude, additional, Bélanger, Erik, additional, Bouchard, Catherine, additional, Canossa, Marco, additional, Chaniot, Johan, additional, Choquet, Daniel, additional, Crochetière, Marie-Ève, additional, Cui, Nanke, additional, Danglot, Lydia, additional, De Koninck, Paul, additional, Devor, Anna, additional, Ducros, Mathieu, additional, Getz, Angela M., additional, Haouat, Mohamed, additional, Hernández, Iván Coto, additional, Jowett, Nate, additional, Keramidis, Iason, additional, Larivière-Loiselle, Céline, additional, Lavoie-Cardinal, Flavie, additional, MacGillavry, Harold D., additional, Malkoç, Asiye, additional, Mancinelli, Mattia, additional, Marquet, Pierre, additional, Minderler, Steven, additional, Moreaud, Maxime, additional, Nägerl, U. Valentin, additional, Papanikolopoulou, Katerina, additional, Paquet, Marie-Eve, additional, Pavesi, Lorenzo, additional, Perrais, David, additional, Sansonetti, Romain, additional, Thunemann, Martin, additional, Vignoli, Beatrice, additional, Yau, Jenny, additional, and Zaccaria, Clara, additional

Published
2024
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