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2. The Effect of a JJ Stent on Sexual Function and Satisfaction

Author

S. Norton, S. Kaur, E. Roche, E. O’Beirn, K. Daly, S. Considine, C. Dowling, S. Jaffry, P. O’Malley, G. Durkan, K. Walsh, E. Rogers, and F. D’Arcy

Subjects
Diseases of the genitourinary system. Urology, RC870-923, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282
Published
2020
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5. Affect systems, changes in body mass index, disordered eating and stress: an 18-month longitudinal study in women

Author

N. Kupeli, S. Norton, J. Chilcot, I. C. Campbell, U. H. Schmidt, and N. A. Troop

Subjects
Stress, weight, disordered eating, affect regulation, longitudinal, Medicine, Psychology, BF1-990
Abstract

Background: Evidence suggests that stress plays a role in changes in body weight and disordered eating. The present study examined the effect of mood, affect systems (attachment and social rank) and affect regulatory processes (self-criticism, self-reassurance) on the stress process and how this impacts on changes in weight and disordered eating. Methods: A large sample of women participated in a community-based prospective, longitudinal online study in which measures of body mass index (BMI), disordered eating, perceived stress, attachment, social rank, mood and self-criticism/reassurance were measured at 6-monthly intervals over an 18-month period. Results: Latent Growth Curve Modelling showed that BMI increased over 18 months while stress and disordered eating decreased and that these changes were predicted by high baseline levels of these constructs. Independently of this, however, increases in stress predicted a reduction in BMI which was, itself, predicted by baseline levels of self-hatred and unfavourable social comparison. Conclusions: This study adds support to the evidence that stress is important in weight change. In addition, this is the first study to show in a longitudinal design, that social rank and self-criticism (as opposed to self-reassurance) at times of difficulty predict increases in stress and, thus, suggests a role for these constructs in weight regulation.

Published
2017
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6. Auditory Processing and Reading Disability: A Systematic Review and Meta-Analysis

Author

Sean McWeeny and Elizabeth S. Norton

Abstract

Purpose: Reading disability (RD) is frequently associated with deficits in auditory processing (i.e., processing speech and non-linguistic sounds). Several hypotheses exist regarding the link between RD and auditory processing, but none fully account for the range/variety of auditory impairments reported in the literature. These impairments have been primarily summarized by qualitative reviews and meta-analytic evidence for most auditory processing impairments is lacking. Method: We conducted a PRISMA-compliant meta-analysis quantifying the degree to which individuals with RD are impaired on four categories of auditory processing abilities: frequency discrimination, intensity discrimination, duration discrimination, and gap detection. This methodology was accepted and executed as a Registered Report. Results: Auditory processing impairments of medium to large effect size were present in RD vs. typical groups for all categories: frequency (g = 0.79), duration (g = 0.80), and intensity discrimination (g = 0.60), as well as gap detection (g = 0.80). No differences were found across task designs (i.e., testing methods). g g g g Conclusion This meta-analysis documents a large, multiple-domain non-linguistic, auditory processing impairment in RD. Contrary to previous studies, we found a significant deficit in intensity discrimination. The impairments described here must be accounted for by future causal hypotheses in RD and suggest that auditory processing impairments are broader than previously thought.

Published
2024
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7. The development and structure of the HEALthy Brain and Child Development (HBCD) Study EEG protocol

Author

Nathan A. Fox, Koraly Pérez-Edgar, Santiago Morales, Natalie H. Brito, Alana M. Campbell, James F. Cavanagh, Laurel Joy Gabard-Durnam, Caitlin M. Hudac, Alexandra P. Key, Linda J. Larson-Prior, Ernest V. Pedapati, Elizabeth S. Norton, Rachel Reetzke, Timothy P. Roberts, Tara M. Rutter, Lisa S. Scott, Lauren C. Shuffrey, Martín Antúnez, Maeve R. Boylan, Bailey M. Garner, Britley Learnard, Savannah McNair, Marco McSweeney, Maria Isabella Natale Castillo, Jessica Norris, Olufemi Shakuur Nyabingi, Nicolò Pini, Alena Quinn, Rachel Stosur, Enda Tan, Sonya V. Troller-Renfree, and Lydia Yoder

Subjects
HBCD, EEG, Infants, Longitudinal cohort, Protocols, Resting EEG, Neurophysiology and neuropsychology, QP351-495
Abstract

The HEALthy Brain and Child Development (HBCD) Study, a multi-site prospective longitudinal cohort study, will examine human brain, cognitive, behavioral, social, and emotional development beginning prenatally and planned through early childhood. Electroencephalography (EEG) is one of two brain imaging modalities central to the HBCD Study. EEG records electrical signals from the scalp that reflect electrical brain activity. In addition, the EEG signal can be synchronized to the presentation of discrete stimuli (auditory or visual) to measure specific cognitive processes with excellent temporal precision (e.g., event-related potentials; ERPs). EEG is particularly helpful for the HBCD Study as it can be used with awake, alert infants, and can be acquired continuously across development. The current paper reviews the HBCD Study’s EEG/ERP protocol: (a) the selection and development of the tasks (Video Resting State, Visual Evoked Potential, Auditory Oddball, Face Processing); (b) the implementation of common cross-site acquisition parameters and hardware, site setup, training, and initial piloting; (c) the development of the preprocessing pipelines and creation of derivatives; and (d) the incorporation of equity and inclusion considerations. The paper also provides an overview of the functioning of the EEG Workgroup and the input from members across all steps of protocol development and piloting.

Published
2024
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8. 'I’m Not the Same Person Anymore': Thematic Analysis Exploring Experiences of Dependence to Prescribed Analgesics in Patients with Chronic Pain in the UK

Author

Louise S. Norton and Bridget Dibb

Subjects
Analgesic dependence, Chronic pain, Prescribed pain medication, Thematic analysis, Anesthesiology, RD78.3-87.3
Abstract

Abstract Introduction The rising issue of dependence to prescribed pain medication for patients with chronic pain has been highlighted in the literature; however, there is a dearth of research exploring the patient perspective of this dependence in the United Kingdom (UK). This exploratory qualitative study aimed to investigate experiences of prescribed analgesic dependence in patients with chronic pain in the UK. Methods Semi-structured interviews were conducted with nine UK-based participants (eight females, one male) with a mean age of 44, who experienced chronic pain and identified as dependent to their prescribed pain medication. The interviews were recorded and transcribed verbatim and the data analysed using thematic analysis. Results Three main themes emerged, including perceptions of dependence, interactions with others, and interactions with medical professionals. The findings revealed how the experiences focused on the participants’ own perception of their dependence, such as its perceived impact on their life and how the dependence began, and the relation of the dependence to their social environment, for example, doctor–patient relations. Conclusions These findings suggest practical implications for the management of dependence such as, raising awareness of the risks of dependence with these medications in the UK, and stricter observation of those taking the medications to identify dependence issues early.

Published
2023
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11. Behavioral and neural measures of infant responsivity increase with maternal multisensory input in non‐irritable infants

Author

Mary Lauren Neel, Arnaud Jeanvoine, Alexandra Key, Ann R. Stark, Elizabeth S. Norton, Lance M. Relland, Krystal Hay, and Nathalie L. Maitre

Subjects
electroencephalography, mother‐infant interaction, Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571
Abstract

Abstract Introduction Parents often use sensory stimulation during early‐life interactions with infants. These interactions, including gazing, rocking, or singing, scaffold child development. Previous studies have examined infant neural processing during highly controlled sensory stimulus presentation paradigms. Objective In this study, we investigated infant behavioral and neural responsiveness during a mother–child social interaction during which the mother provided infant stimulation with a progressive increase in the number of sensory modalities. Methods We prospectively collected and analyzed video‐coded behavioral interactions and electroencephalogram (EEG) frontal asymmetry (FAS) from infants (n = 60) at 2–4 months born at ≥ 34 weeks gestation. As the number of sensory modalities progressively increased during the interaction, infant behaviors of emotional connection in facial expressiveness, sensitivity to mother, and vocal communication increased significantly. Conversely, infant FAS for the entire cohort did not change significantly. However, when we accounted for infant irritability, both video‐coded behaviors and EEG FAS markers of infant responsiveness increased across the interaction in the non‐irritable infants. The non‐irritable infants (49%) demonstrated positive FAS, indicating readiness to engage with, rather than to withdraw from, multisensory but not unisensory interactions with their mothers. Results These results suggest that multisensory input from mothers is associated with greater infant neural approach state and highlight the importance of infant behavioral state during neural measures of infant responsiveness.

Published
2023
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13. Glioblastoma disrupts the ependymal wall and extracellular matrix structures of the subventricular zone

Author

Emily S. Norton, Lauren A. Whaley, María José Ulloa-Navas, Patricia García-Tárraga, Kayleah M. Meneses, Montserrat Lara-Velazquez, Natanael Zarco, Anna Carrano, Alfredo Quiñones-Hinojosa, José Manuel García-Verdugo, and Hugo Guerrero-Cázares

Subjects
Lateral ventricle, Stem cell niche, Subependymal zone, Glioma, Cerebrospinal fluid (CSF), Lipid droplets, Neurology. Diseases of the nervous system, RC346-429
Abstract

Abstract Background Glioblastoma (GBM) is the most aggressive and common type of primary brain tumor in adults. Tumor location plays a role in patient prognosis, with tumors proximal to the lateral ventricles (LVs) presenting with worse overall survival, increased expression of stem cell genes, and increased incidence of distal tumor recurrence. This may be due in part to interaction of GBM with factors of the subventricular zone (SVZ), including those contained within the cerebrospinal fluid (CSF). However, direct interaction of GBM tumors with CSF has not been proved and would be hindered in the presence of an intact ependymal cell layer. Methods Here, we investigate the ependymal cell barrier and its derived extracellular matrix (ECM) fractones in the vicinity of a GBM tumor. Patient-derived GBM cells were orthotopically implanted into immunosuppressed athymic mice in locations distal and proximal to the LV. A PBS vehicle injection in the proximal location was included as a control. At four weeks post-xenograft, brain tissue was examined for alterations in ependymal cell health via immunohistochemistry, scanning electron microscopy, and transmission electron microscopy. Results We identified local invading GBM cells within the LV wall and increased influx of CSF into the LV-proximal GBM tumor bulk compared to controls. In addition to the physical disruption of the ependymal cell barrier, we also identified increased signs of compromised ependymal cell health in LV-proximal tumor-bearing mice. These signs include increased accumulation of lipid droplets, decreased cilia length and number, and decreased expression of cell channel proteins. We additionally identified elevated numbers of small fractones in the SVZ within this group, suggesting increased indirect CSF-contained molecule signaling to tumor cells. Conclusions Our data is the first to show that LV-proximal GBMs physically disrupt the ependymal cell barrier in animal models, resulting in disruptions in ependymal cell biology and increased CSF interaction with the tumor bulk. These findings point to ependymal cell health and CSF-contained molecules as potential axes for therapeutic targeting in the treatment of GBM.

Published
2022
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18. From Recognizing Known Words to Learning New Ones: Comparing Online Speech Processing in Typically Developing and Late-Talking 2-Year-Olds

Author

Alexander LaTourrette, Sandra Waxman, Lauren S. Wakschlag, Elizabeth S. Norton, and Adriana Weisleder

Subjects
Speech and Hearing, Linguistics and Language, Language and Linguistics
Abstract

Purpose: This study examines online speech processing in typically developing and late-talking 2-year-old children, comparing both groups' word recognition, word prediction, and word learning. Method: English-acquiring U.S. children, from the “When to Worry” study of language and social–emotional development, were identified as typical talkers ( n = 67, M age = 27.0 months, SD = 1.4; Study 1) or late talkers ( n = 30, M age = 27.0 months, SD = 2.0; Study 2). Children completed an eye-tracking task assessing their ability to recognize both nouns and verbs, to use verbs to predict an upcoming noun's referent, and to use verbs to infer the meaning of novel nouns. Results: Both typical and late talkers recognized nouns and verbs and used familiar verbs to predict the referents of upcoming nouns, whether the noun was familiar (“You can eat the apple”) or novel (“You can eat the dax”). Late talkers were slower in using familiar nouns to orient to the target and were both slower and less accurate in using familiar verbs to identify the upcoming noun's referent. Notably, however, both groups learned and retained novel word meanings with similar success. Conclusions: Late talkers demonstrated slower lexical processing, especially for verbs. Yet, their success in using familiar verbs to learn novel nouns suggests that, as a group, their slower processing did not impair word learning in this task. This sets the foundation for future work investigating whether these measures predict later language outcomes and can differentiate late talkers with transient delays from those with language disorders.

Published
2023

21. The Art, Science, and Secrets of Scanning Young Children

Author

Marisa N. Spann, Jessica L. Wisnowski, Christopher D. Smyser, Brittany Howell, Douglas C. Dean, Banu Ahtam, Wei Gao, Hao Huang, Mary Beth Nebel, Elizabeth S. Norton, Minhui Ouyang, Vidya Rajagopalan, Tracy Riggins, Zeynep M. Saygin, Lisa Scott, Moriah E. Thomason, Lauren S. Wakschlag, Sahar Ahmad, Ezra Aydin, A. James Barkovich, Evelyn Berger-Jenkins, Johanna Brick, Lindsay C. Bowman, M. Catalina Camacho, Claudia Lugo-Candelas, Rhodri Cusack, Jessica DuBois, Alexander J. Dufford, Jed T. Elison, Cameron T. Ellis, Silvina L. Ferradal, Courtney Filippi, Aiden Leigh Ford, Mahshid Fouladivanda, Nadine Gaab, Dawn Gano, Melanie Ganz-Benjaminsen, Simona Ghetti, Orit Ariel Glenn, Maria Jose Castro Gomez, Alice Graham, Cassandra L. Hendrix, Cristin M. Holland, Kathryn Humphreys, Marta Korom, Heather L. Kosakowski, Gang Li, Angela Gigliotti Manessis, Saara Nolvi, Roberta Pineda, Angeliki Pollatou, Caroline Rae, Jerod M. Rasmussen, Dustin Scheinost, Sara Shultz, Cristina Simon-Martinez, Kathrine Skak Madsen, Sooyeon Sung, Chad M. Sylvester, Ted K. Turesky, Kelly A. Vaughn, Lauren Wagner, Li Wang, Fleur L. Warton, Sylia Wilson, Pia Wintermark, Ye Wu, Pew-Thian Yap, Tristan S. Yates, Elizabeth Yen, Xi Yu, Hongtu Zhu, and Lilla Zöllei

Subjects
Article, Biological Psychiatry
Published
2023

23. A Biodistribution Study of the Radiolabeled Kv1.3-Blocking Peptide DOTA-HsTX1[R14A] Demonstrates Brain Uptake in a Mouse Model of Neuroinflammation

Author

Sanjeevini Babu Reddiar, Michael de Veer, Brett M. Paterson, Tara Sepehrizadeh, Dorothy C. C. Wai, Agota Csoti, Gyorgy Panyi, Joseph A. Nicolazzo, and Raymond S. Norton

Subjects
Drug Discovery, Pharmaceutical Science, Molecular Medicine
Abstract

The voltage-gated potassium channel Kv1.3 regulates the pro-inflammatory function of microglia and is highly expressed in the post-mortem brains of individuals with Alzheimer's and Parkinson's diseases. HsTX1[R14A] is a selective and potent peptide inhibitor of the Kv1.3 channel (IC

Published
2022

25. Membrane Permeating Macrocycles: Design Guidelines from Machine Learning

Author

Billy J. Williams-Noonan, Melissa N. Speer, Tu C. Le, Maiada M. Sadek, Philip E. Thompson, Raymond S. Norton, Elizabeth Yuriev, Nicholas Barlow, David K. Chalmers, and Irene Yarovsky

Subjects
Machine Learning, Oxygen, Octanols, Macrocyclic Compounds, Nitrogen, General Chemical Engineering, Water, General Chemistry, Library and Information Sciences, Hydrogen, Computer Science Applications
Abstract

The ability to predict cell-permeable candidate molecules has great potential to assist drug discovery projects. Large molecules that lie beyond the Rule of Five (bRo5) are increasingly important as drug candidates and tool molecules for chemical biology. However, such large molecules usually do not cross cell membranes and cannot access intracellular targets or be developed as orally bioavailable drugs. Here, we describe a random forest (RF) machine learning model for the prediction of passive membrane permeation rates developed using a set of over 1000 bRo5 macrocyclic compounds. The model is based on easily calculated chemical features/descriptors as independent variables. Our random forest (RF) model substantially outperforms a multiple linear regression model based on the same features and achieves better performance metrics than previously reported models using the same underlying data. These features include: (1) polar surface area in water, (2) the octanol-water partitioning coefficient, (3) the number of hydrogen-bond donors, (4) the sum of the topological distances between nitrogen atoms, (5) the sum of the topological distances between nitrogen and oxygen atoms, and (6) the multiple molecular path count of order 2. The last three features represent molecular flexibility, the ability of the molecule to adopt different conformations in the aqueous and membrane interior phases, and the molecular "chameleonicity." Guided by the model, we propose design guidelines for membrane-permeating macrocycles. It is anticipated that this model will be useful in guiding the design of large, bioactive molecules for medicinal chemistry and chemical biology applications.

Published
2022

26. Lability of prenatal stress during the COVID‐19 pandemic links to negative affect in infancy

Author

Leigha A. MacNeill, Sheila Krogh‐Jespersen, Yudong Zhang, Gina Giase, Renee Edwards, Amélie Petitclerc, Leena B. Mithal, Karen Mestan, William A. Grobman, Elizabeth S. Norton, Nabil Alshurafa, Judith T. Moskowitz, S. Darius Tandon, and Lauren S. Wakschlag

Subjects
Pediatrics, Perinatology and Child Health, Developmental and Educational Psychology
Abstract

The association between prenatal stress and children's socioemotional development is well established. The COVID-19 pandemic has been a particularly stressful period, which may impact the gestational environment. However, most studies to-date have examined prenatal stress at a single time point, potentially masking the natural variation in stress that occurs over time, especially during a time as uncertain as the pandemic. This study leveraged dense ecological momentary assessments from a prenatal randomized control trial to examine patterns of prenatal stress over a 14-week period (up to four assessments/day) in a U.S. sample of 72 mothers and infants. We first examined whether varied features of stress exposure (lability, mean, and baseline stress) differed depending on whether mothers reported on their stress before or during the pandemic. We next examined which features of stress were associated with 3-month-old infants' negative affect. We did not find differences in stress patterns before and during the pandemic. However, greater stress lability, accounting for baseline and mean stress, was associated with higher infant negative affect. These findings suggest that pathways from prenatal stress exposure to infant socioemotional development are complex, and close attention to stress patterns over time will be important for explicating these pathways.

Published
2022

27. Guiding the Immune Response to a Conserved Epitope in MSP2, an Intrinsically Disordered Malaria Vaccine Candidate

Author

Jeffrey Seow, Sreedam C. Das, Rodrigo A. V. Morales, Ricardo Ataide, Bankala Krishnarjuna, Mitchell Silk, David K. Chalmers, Jack Richards, Robin F. Anders, Christopher A. MacRaild, and Raymond S. Norton

Subjects
malaria, merozoite surface protein 2, disordered protein, peptide vaccines, structural vaccinology, Medicine
Abstract

The malaria vaccine candidate merozoite surface protein 2 (MSP2) has shown promise in clinical trials and is in part responsible for a reduction in parasite densities. However, strain-specific reductions in parasitaemia suggested that polymorphic regions of MSP2 are immuno-dominant. One strategy to bypass the hurdle of strain-specificity is to bias the immune response towards the conserved regions. Two mouse monoclonal antibodies, 4D11 and 9H4, recognise the conserved C-terminal region of MSP2. Although they bind overlapping epitopes, 4D11 reacts more strongly with native MSP2, suggesting that its epitope is more accessible on the parasite surface. In this study, a structure-based vaccine design approach was applied to the intrinsically disordered antigen, MSP2, using a crystal structure of 4D11 Fv in complex with its minimal binding epitope. Molecular dynamics simulations and surface plasmon resonance informed the design of a series of constrained peptides that mimicked the 4D11-bound epitope structure. These peptides were conjugated to keyhole limpet hemocyanin and used to immunise mice, with high to moderate antibody titres being generated in all groups. The specificities of antibody responses revealed that a single point mutation can focus the antibody response towards a more favourable epitope. This structure-based approach to peptide vaccine design may be useful not only for MSP2-based malaria vaccines, but also for other intrinsically disordered antigens.

Published
2021
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28. Tentacle Morphological Variation Coincides with Differential Expression of Toxins in Sea Anemones

Author

Lauren M. Ashwood, Michela L. Mitchell, Bruno Madio, David A. Hurwood, Glenn F. King, Eivind A. B. Undheim, Raymond S. Norton, and Peter J. Prentis

Subjects
Actiniaria, venom, toxin expression, transcriptomics, ecology, Medicine
Abstract

Phylum Cnidaria is an ancient venomous group defined by the presence of cnidae, specialised organelles that serve as venom delivery systems. The distribution of cnidae across the body plan is linked to regionalisation of venom production, with tissue-specific venom composition observed in multiple actiniarian species. In this study, we assess whether morphological variants of tentacles are associated with distinct toxin expression profiles and investigate the functional significance of specialised tentacular structures. Using five sea anemone species, we analysed differential expression of toxin-like transcripts and found that expression levels differ significantly across tentacular structures when substantial morphological variation is present. Therefore, the differential expression of toxin genes is associated with morphological variation of tentacular structures in a tissue-specific manner. Furthermore, the unique toxin profile of spherical tentacular structures in families Aliciidae and Thalassianthidae indicate that vesicles and nematospheres may function to protect branched structures that host a large number of photosynthetic symbionts. Thus, hosting zooxanthellae may account for the tentacle-specific toxin expression profiles observed in the current study. Overall, specialised tentacular structures serve unique ecological roles and, in order to fulfil their functions, they possess distinct venom cocktails.

Published
2021
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29. X-ray crystal structure of plasmin with tranexamic acid–derived active site inhibitors

Author

Ruby H.P. Law, Guojie Wu, Eleanor W.W. Leung, Koushi Hidaka, Adam J. Quek, Tom T. Caradoc-Davies, Devadharshini Jeevarajah, Paul J. Conroy, Nigel M. Kirby, Raymond S. Norton, Yuko Tsuda, and James C. Whisstock

Subjects
Specialties of internal medicine, RC581-951
Abstract

Abstract: The zymogen protease plasminogen and its active form plasmin perform key roles in blood clot dissolution, tissue remodeling, cell migration, and bacterial pathogenesis. Dysregulation of the plasminogen/plasmin system results in life-threatening hemorrhagic disorders or thrombotic vascular occlusion. Accordingly, inhibitors of this system are clinically important. Currently, tranexamic acid (TXA), a molecule that prevents plasminogen activation through blocking recruitment to target substrates, is the most widely used inhibitor for the plasminogen/plasmin system in therapeutics. However, TXA lacks efficacy on the active form of plasmin. Thus, there is a need to develop specific inhibitors that target the protease active site. Here we report the crystal structures of plasmin in complex with the novel YO (trans-4-aminomethylcyclohexanecarbonyl-l-tyrosine-n-octylamide) class of small molecule inhibitors. We found that these inhibitors form key interactions with the S1 and S3′ subsites of the catalytic cleft. Here, the TXA moiety of the YO compounds inserts into the primary (S1) specificity pocket, suggesting that TXA itself may function as a weak plasmin inhibitor, a hypothesis supported by subsequent biochemical and biophysical analyses. Mutational studies reveal that F587 of the S′ subsite plays a key role in mediating the inhibitor interaction. Taken together, these data provide a foundation for the future development of small molecule inhibitors to specifically regulate plasmin function in a range of diseases and disorders.

Published
2017
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31. Disrupted left fusiform response to print in beginning kindergartners is associated with subsequent reading

Author

Tracy M. Centanni, Elizabeth S. Norton, Ola Ozernov-Palchik, Anne Park, Sara D. Beach, Kelly Halverson, Nadine Gaab, and John D.E. Gabrieli

Subjects
Computer applications to medicine. Medical informatics, R858-859.7, Neurology. Diseases of the nervous system, RC346-429
Abstract

Dyslexia is a common neurobiological disorder in which a child fails to acquire typical word reading skills despite adequate opportunity and intelligence. The visual word form area (VWFA) is a region within the left fusiform gyrus that specializes for print over the course of reading acquisition and is often hypoactivated in individuals with dyslexia. It is currently unknown whether atypicalities in this brain region are already present in kindergarten children who will subsequently develop dyslexia. Here, we measured fMRI activation in response to letters and false fonts in bilateral fusiform gyrus in children with and without risk for dyslexia (defined by family history or low scores on assessments of pre-reading skills, such as phonological awareness). We then followed these children longitudinally through the end of second grade to evaluate whether brain activation patterns in kindergarten were related to second-grade reading outcomes. Compared to typical readers who exhibited no risk factors for reading impairment in kindergarten, there was significant hypoactivation to both letters and false-fonts in the left fusiform gyrus in at-risk children who subsequently developed reading impairment, but not in at-risk children who developed typical reading skills. There were no significant differences in letter- or false-font responses in the right fusiform gyrus among the groups. The finding that hypoactivation to print in the VWFA is present in children who subsequently develop reading impairment even prior to the onset of formal reading instruction suggests that atypical responses to print play an early role in the development of reading impairments such as dyslexia. Keywords: Reading outcomes, Dyslexia, Reading impairment, VWFA, Diagnosis

Published
2019
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32. Peripheral Administration of the Kv1.3-Blocking Peptide HsTX1[R14A] Improves Cognitive Performance in Senescence Accelerated SAMP8 Mice

Author

Yijun Pan, Yoshiteru Kagawa, Jiaqi Sun, Deanna S. Deveson Lucas, Ryusuke Takechi, John C. L. Mamo, Dorothy C. C. Wai, Raymond S. Norton, Liang Jin, and Joseph A. Nicolazzo

Subjects
Pharmacology, Pharmacology (medical), Neurology (clinical)
Abstract

Increased expression of the voltage-gated potassium channel Kv1.3 in activated microglia, and the subsequent release of pro-inflammatory mediators, are closely associated with the progression of Alzheimer’s disease (AD). Studies have shown that reducing neuroinflammation through the non-selective blockade of microglial Kv1.3 has the potential to improve cognitive function in mouse models of familial AD. We have previously demonstrated that a potent and highly-selective peptide blocker of Kv1.3, HsTX1[R14A], not only entered the brain parenchyma after peripheral administration in a lipopolysaccharide (LPS)-induced mouse model of inflammation, but also significantly reduced pro-inflammatory mediator release from activated microglia. In this study, we show that microglial expression of Kv1.3 is increased in senescence accelerated mice (SAMP8), an animal model of sporadic AD, and that subcutaneous dosing of HsTX1[R14A] (1 mg/kg) every other day for 8 weeks provided a robust improvement in cognitive deficits in SAMP8 mice. The effect of HsTX1[R14A] on the whole brain was assessed using transcriptomics, which revealed that the expression of genes associated with inflammation, neuron differentiation, synapse function, learning and memory were altered by HsTX1[R14A] treatment. Further study is required to investigate whether these changes are downstream effects of microglial Kv1.3 blockade or a result of alternative mechanisms, including any potential effect of Kv1.3 blockade on other brain cell types. Nonetheless, these results collectively demonstrate the cognitive benefits of Kv1.3 blockade with HsTX1[R14A] in a mouse model of sporadic AD, demonstrating its potential as a therapeutic candidate for this neurodegenerative disease.

Published
2023

33. Genomic, functional and structural analyses elucidate evolutionary innovation within the sea anemone 8 toxin family

Author

Lauren M. Ashwood, Khaled A. Elnahriry, Zachary K. Stewart, Thomas Shafee, Muhammad Umair Naseem, Tibor G. Szanto, Chloé A. van der Burg, Hayden L. Smith, Joachim M. Surm, Eivind A. B. Undheim, Bruno Madio, Brett R. Hamilton, Shaodong Guo, Dorothy C. C. Wai, Victoria L. Coyne, Matthew J. Phillips, Kevin J. Dudley, David A. Hurwood, Gyorgy Panyi, Glenn F. King, Ana Pavasovic, Raymond S. Norton, and Peter J. Prentis

Subjects
Physiology, Structural Biology, Cell Biology, Plant Science, General Agricultural and Biological Sciences, General Biochemistry, Genetics and Molecular Biology, Ecology, Evolution, Behavior and Systematics, Developmental Biology, Biotechnology
Abstract

Background The ShK toxin from Stichodactyla helianthus has established the therapeutic potential of sea anemone venom peptides, but many lineage-specific toxin families in Actiniarians remain uncharacterised. One such peptide family, sea anemone 8 (SA8), is present in all five sea anemone superfamilies. We explored the genomic arrangement and evolution of the SA8 gene family in Actinia tenebrosa and Telmatactis stephensoni, characterised the expression patterns of SA8 sequences, and examined the structure and function of SA8 from the venom of T. stephensoni. Results We identified ten SA8-family genes in two clusters and six SA8-family genes in five clusters for T. stephensoni and A. tenebrosa, respectively. Nine SA8 T. stephensoni genes were found in a single cluster, and an SA8 peptide encoded by an inverted SA8 gene from this cluster was recruited to venom. We show that SA8 genes in both species are expressed in a tissue-specific manner and the inverted SA8 gene has a unique tissue distribution. While the functional activity of the SA8 putative toxin encoded by the inverted gene was inconclusive, its tissue localisation is similar to toxins used for predator deterrence. We demonstrate that, although mature SA8 putative toxins have similar cysteine spacing to ShK, SA8 peptides are distinct from ShK peptides based on structure and disulfide connectivity. Conclusions Our results provide the first demonstration that SA8 is a unique gene family in Actiniarians, evolving through a variety of structural changes including tandem and proximal gene duplication and an inversion event that together allowed SA8 to be recruited into the venom of T. stephensoni.

Published
2023

34. Genetic influences on the developing young brain and risk for neuropsychiatric disorders

Author

Ann M. Alex, Claudia Buss, Elysia Poggi Davis, Gustavo de los Campos, Kirsten A. Donald, Damien A. Fair, Nadine Gaab, Wei Gao, John H. Gilmore, Jessica B. Girault, Karen Grewen, Nynke A. Groenewold, Benjamin L. Hankin, Jonathan Ipser, Shreya Kapoor, Pilyoung Kim, Weili Lin, Shan Luo, Elizabeth S. Norton, Thomas G. O’Connor, Joseph Piven, Anqi Qiu, Jerod M. Rasmussen, Michael A. Skeide, Dan J. Stein, Martin A. Styner, Paul M. Thompson, Laurie Wakschlag, and Rebecca Knickmeyer

Subjects
Biological Psychiatry
Abstract

Imaging genetics provides an opportunity to discern associations between genetic variants and brain imaging phenotypes. Historically, the field has focused on adults and adolescents; very few imaging genetics studies have focused on brain development in infancy and early childhood (from birth to age six). This is an important knowledge gap as developmental changes in brain during the prenatal and early postnatal period are regulated by dynamic gene expression patterns that likely play an important role in establishing an individual’s risk for later psychiatric illness and neurodevelopmental disabilities. In this review, we summarize findings from imaging genetics studies spanning from early infancy to early childhood with a focus on studies examining genetic risk for neuropsychiatric disorders. We also introduce the Organization for Imaging Genomics in Infancy (ORIGINs), a working group of the ENIGMA (Enhancing NeuroImaging Genetics through Meta-Analysis) consortium, which was established to facilitate large-scale imaging-genetics studies in infancy and early childhood.

Published
2023

35. A Mutant Methionyl-tRNA Synthetase-Based toolkit to assess induced-Mesenchymal Stromal Cell secretome in mixed-culture disease models

Author

Jeremy D. Burgess, Danilyn Amerna, Emily S. Norton, Tammee M. Parsons, Ralph B. Perkerson III., Ayman H. Faroqi, Zbigniew K. Wszolek, Hugo Guerrero Cazares, Takahisa Kanekiyo, Marion Delenclos, and Pamela J. McLean

Abstract

Background Mesenchymal stromal cells (MSCs) have a dynamic secretome that plays a critical role in tissue repair and regeneration. However, studying the MSC secretome in mixed-culture disease models remains challenging. This study aimed to develop a mutant methionyl-tRNA synthetase-based toolkit (MetRSL274G) to selectively profile secreted proteins from MSCs in mixed-culture systems and demonstrate its potential for investigating MSC responses to pathological stimulation.Methods We used CRISPR/Cas9 homology-directed repair to stably integrate MetRSL274G into cells, enabling the incorporation of the non-canonical amino acid, azidonorleucine (ANL), and facilitating selective protein isolation using click chemistry. MetRSL274G was integrated into both in H4 cells and induced pluripotent stem cells (iPSCs) for a series of proof-of-concept studies. Following iPSC differentiation into induced-MSCs, we validated their identity and co-cultured MetRSL274G-expressing iMSCs with naïve or lipopolysaccharide- (LPS) treated THP-1 cells. We then profiled the iMSC secretome using antibody arrays.Results Our results showed successful integration of MetRSL274G into targeted cells, allowing specific isolation of proteins from mixed-culture environments. We also demonstrated that the secretome of MetRSL274G-expressing iMSCs can be differentiated from that of THP-1 cells in co-culture, and is altered when co-cultured with LPS-treated THP-1 cells compared to naïve THP-1 cells.Conclusions The MetRSL274G-based toolkit we have generated enables selective profiling of the MSC secretome in mixed-culture disease models. This approach has broad applications for examining not only MSC responses to models of pathological conditions, but any other cell type that can be differentiated from iPSCs. This can potentially reveal novel MSC-mediated repair mechanisms and advancing our understanding of tissue regeneration processes.

Published
2023

37. RNA splicing analysis using heterogeneous and large RNA-seq datasets

Author

Jorge Vaquero-Garcia, Joseph K. Aicher, San Jewell, Matthew R. Gazzara, Caleb M. Radens, Anupama Jha, Scott S. Norton, Nicholas F. Lahens, Gregory R. Grant, and Yoseph Barash

Subjects
Multidisciplinary, General Physics and Astronomy, General Chemistry, General Biochemistry, Genetics and Molecular Biology
Abstract

The ubiquity of RNA-seq has led to many methods that use RNA-seq data to analyze variations in RNA splicing. However, available methods are not well suited for handling heterogeneous and large datasets. Such datasets scale to thousands of samples across dozens of experimental conditions, exhibit increased variability compared to biological replicates, and involve thousands of unannotated splice variants resulting in increased transcriptome complexity. We describe here a suite of algorithms and tools implemented in the MAJIQ v2 package to address challenges in detection, quantification, and visualization of splicing variations from such datasets. Using both large scale synthetic data and GTEx v8 as benchmark datasets, we assess the advantages of MAJIQ v2 compared to existing methods. We then apply MAJIQ v2 package to analyze differential splicing across 2,335 samples from 13 brain subregions, demonstrating its ability to offer insights into brain subregion-specific splicing regulation.

Published
2023

39. A preliminary investigation of digital media supplements for head and neck anatomy: Does production format matter?

Author

Gilbert M. Willett, Anna Forbes, James Spagna, Barbara O'Kane, Michael Weston, Margaret Jergenson, and Neil S. Norton

Subjects
Internet, Students, Medical, Histology, Dissection, Cadaver, Humans, Curriculum, Educational Measurement, General Medicine, Anatomy, Education, Medical, Undergraduate
Abstract

From cassettes to digital, use of video in education has evolved. Supplemental digital media is a common educational adjunct within gross anatomy courses. As these aids have advanced technologically, so has production cost. Traditional lecture (T-lect) productions tend to be more efficient. Traditional gross anatomy laboratory (T-lab) productions requiring cadaver dissection and high-definition video are comparatively less efficient. This preliminary study pragmatically assessed T-lect and T-lab supplemental learning tools in a head and neck anatomy course for first-year dental students. Two videos of similar length were developed for different anatomical regions. Learning objectives were similar while format differed. A carotid triangle supplement was created using a T-lab production format and an infratemporal fossa aid was created using a T-lect format. Both incorporated recommended elements for facilitating learning. Development time and costs were documented. Student exam performance on topic specific questions was collected along with survey data. Group mean exam score comparisons between students who viewed (n = 74 T-lect, n = 70 T-lab) versus did not view (n = 27 T-lect, n = 30 T-lab) each aid revealed higher scores for the "viewed" group. The T-lab production cost ($15,190 versus $10,003) and time (19 hr. versus 18 hr) were greater than T-lect. Descriptive survey data did not reveal a format preference. Students valued previews/summaries and structure highlighting/labeling within the supplements. Students appreciated the supplemental learning aids and mean exam scores were higher for users. Since production format did not noticeably alter exam performance and satisfaction was similar, production efficiency should take precedence.

Published
2022

41. Blockade of Microglial Kv1.3 Potassium Channels by the Peptide HsTX1[R14A] Attenuates Lipopolysaccharide-mediated Neuroinflammation

Author

Liang Jin, Ilenia Di Stefano, Joseph A. Nicolazzo, Sanjeevini Babu Reddiar, Raymond S. Norton, Yi Ling Low, Dorothy C.C. Wai, Kwok Ho Christopher Choy, and Yijun Pan

Subjects
Lipopolysaccharides, Kv1.3 Potassium Channel, Necrosis, Microglia, Lipopolysaccharide, Interleukin-6, Tumor Necrosis Factor-alpha, Pharmaceutical Science, Pharmacology, Potassium channel, Blockade, Nitric oxide, Mice, chemistry.chemical_compound, medicine.anatomical_structure, chemistry, In vivo, Neuroinflammatory Diseases, medicine, Animals, Cytokines, medicine.symptom, Peptides, Neuroinflammation
Abstract

The expression of voltage-gated potassium Kv1.3 channels is increased in activated microglia, with non-selective blockade reported to attenuate microglial-mediated neuroinflammation. In this study, we evaluated the impact of a potent and selective peptidic blocker of Kv1.3 channels, HsTX1[R14A], on microglial-mediated neuroinflammation in vitro and in vivo. Treatment with both 0.1 and 1 µg/mL lipopolysaccharide (LPS) significantly (p

Published
2022

42. Translating RDoC to real-world impact in developmental psychopathology: A neurodevelopmental framework for application of mental health risk calculators

Author

Leigha A. MacNeill, Norrina B. Allen, Roshaye B. Poleon, Teresa Vargas, K. Juston Osborne, Katherine S. F. Damme, Deanna M. Barch, Sheila Krogh-Jespersen, Ashley N. Nielsen, Elizabeth S. Norton, Christopher D. Smyser, Cynthia E. Rogers, Joan L. Luby, Vijay A. Mittal, and Lauren S. Wakschlag

Subjects
Adult, Young Adult, Psychiatry and Mental health, Mental Health, Psychopathology, Child, Preschool, Mental Disorders, Developmental and Educational Psychology, Humans, Article
Abstract

The National Institute of Mental Health's Research Domain Criteria (RDoC) framework has prompted a paradigm shift from categorical psychiatric disorders to considering multiple levels of vulnerability for probabilistic risk of disorder. However, the lack of neurodevelopmentally based tools for clinical decision making has limited the real-world impact of the RDoC. Integration with developmental psychopathology principles and statistical methods actualize the clinical implementation of RDoC to inform neurodevelopmental risk. In this conceptual paper, we introduce the probabilistic mental health risk calculator as an innovation for such translation and lay out a research agenda for generating an RDoC- and developmentally informed paradigm that could be applied to predict a range of developmental psychopathologies from early childhood to young adulthood. We discuss methods that weigh the incremental utility for prediction based on intensity and burden of assessment, the addition of developmental change patterns, considerations for assessing outcomes, and integrative data approaches. Throughout, we illustrate the risk calculator approach with different neurodevelopmental pathways and phenotypes. Finally, we discuss real-world implementation of these methods for improving early identification and prevention of developmental psychopathology. We propose that mental health risk calculators can build a needed bridge between the RDoC multiple units of analysis and developmental science.

Published
2021

44. Genomic, Functional and Structural Analyses Reveal Mechanisms of Evolutionary Innovation within the Sea Anemone 8 Toxin Family

Author

Lauren M. Ashwood, Khaled A. Elnahriry, Zachary K. Stewart, Thomas Shafee, Muhammad Umair Naseem, Tibor G. Szanto, Chloé A. van der Burg, Hayden L. Smith, Joachim M. Surm, Eivind A.B. Undheim, Bruno Madio, Brett R. Hamilton, Shaodong Guo, Dorothy C.C. Wai, Victoria L. Coyne, Matthew J. Phillips, Kevin J. Dudley, David A. Hurwood, Gyorgy Panyi, Glenn F. King, Ana Pavasovic, Raymond S. Norton, and Peter J. Prentis

Abstract

ShK fromStichodactyla helianthushas established the therapeutic potential of sea anemone venom peptides, but many lineage-specific toxin families in actinarians remain uncharacterised. One such peptide family, sea anemone 8 (SA8), is present in all five sea anemone superfamilies. We explored the genomic arrangement and evolution of the SA8 gene family inActinia tenebrosaandTelmatactis stephensoni, characterised the expression patterns of SA8 sequences, and examined the structure and function of SA8 from the venom ofT.stephensoni. We identified ten SA8 genes in two clusters and six SA8 genes in five clusters forT. stephensoniandA. tenebrosa, respectively. Nine SA8T. stephensonigenes were found in a single cluster and an SA8 peptide encoded by an inverted SA8 gene from this cluster was recruited to venom. We show that SA8 genes in both species are expressed in a tissue-specific manner and the inverted SA8 gene has a unique tissue distribution. While functional activity of the SA8 putative toxin encoded by the inverted gene was inconclusive, its tissue localisation is similar to toxins used for predator deterrence. We demonstrate that, although mature SA8 putative toxins have similar cysteine spacing to ShK, SA8 peptides are distinct from ShK peptides based on structure and disulfide connectivity. Our results provide the first demonstration that SA8 is a unique gene family in actiniarians, evolving through a variety of structural changes including tandem and proximal gene duplication and an inversion event that together allowed SA8 to be recruited into the venom ofT.stephensoni.

Published
2022

45. Novel populations of Tr1 cells contribute to the resolution of acute influenza A virus infection

Author

Caitlin A Abbott, Emily L Freimayer, Timona S Tyllis, Todd S Norton, Mohammed Alsharifi, Aaron H S Heng, Stephen M Pederson, Zhipeng Qu, Mark Armstrong, Geoffrey R Hill, Shaun R McColl, and Iain Comerford

Abstract

Type I regulatory (Tr1) cells contribute to immune suppression in the context of chronic infection, autoimmunity, and transplant tolerance. However, their physiological relevance in the resolution of acute respiratory infection is not understood. Here, we identify Tr1 cells accumulating in the lung parenchyma during resolution of the response to sublethal influenza A virus infection in mice. Tr1 cells were dependent on IL-27Rα and in their absence recovery from IAV-induced weight loss is impaired. Notably, these Tr1 cells did not necessarily co-express the typical Tr1 markers LAG-3 and CD49b, with four distinct populations of Tr1 cells apparent in the lungs. Each population was suppressive and were differentially dependent on IL-10 to mediate suppression. Transcriptional analysis revealed a core Tr1 gene signature in each population and distinct expression profiles indicative of different states of activation and differentiation. Finally, sort-transfer experiments indicated non-linear plasticity between these subsets of Tr1 cells. Together, these data support Tr1 cells contributing to the resolution of acute inflammation and define novel Tr1 cell phenotypes in acute infection.

Published
2022

46. α-Conotoxin Peptidomimetics: Probing the Minimal Binding Motif for Effective Analgesia

Author

Adam C. Kennedy, Alessia Belgi, Benjamin W. Husselbee, David Spanswick, Raymond S. Norton, and Andrea J. Robinson

Subjects
conotoxins, peptides, analgesia, disulfide, dicarba peptides, GABAB, Medicine
Abstract

Several analgesic α-conotoxins have been isolated from marine cone snails. Structural modification of native peptides has provided potent and selective analogues for two of its known biological targets—nicotinic acetylcholine and γ-aminobutyric acid (GABA) G protein-coupled (GABAB) receptors. Both of these molecular targets are implicated in pain pathways. Despite their small size, an incomplete understanding of the structure-activity relationship of α-conotoxins at each of these targets has hampered the development of therapeutic leads. This review scrutinises the N-terminal domain of the α-conotoxin family of peptides, a region defined by an invariant disulfide bridge, a turn-inducing proline residue and multiple polar sidechain residues, and focusses on structural features that provide analgesia through inhibition of high-voltage-activated Ca2+ channels. Elucidating the bioactive conformation of this region of these peptides may hold the key to discovering potent drugs for the unmet management of debilitating chronic pain associated with a wide range of medical conditions.

Published
2020
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47. Characterising Functional Venom Profiles of Anthozoans and Medusozoans within Their Ecological Context

Author

Lauren M. Ashwood, Raymond S. Norton, Eivind A. B. Undheim, David A. Hurwood, and Peter J. Prentis

Subjects
Cnidaria, Anthozoa, Medusozoa, venom, toxins, transcriptomics, Biology (General), QH301-705.5
Abstract

This review examines the current state of knowledge regarding toxins from anthozoans (sea anemones, coral, zoanthids, corallimorphs, sea pens and tube anemones). We provide an overview of venom from phylum Cnidaria and review the diversity of venom composition between the two major clades (Medusozoa and Anthozoa). We highlight that the functional and ecological context of venom has implications for the temporal and spatial expression of protein and peptide toxins within class Anthozoa. Understanding the nuances in the regulation of venom arsenals has been made possible by recent advances in analytical technologies that allow characterisation of the spatial distributions of toxins. Furthermore, anthozoans are unique in that ecological roles can be assigned using tissue expression data, thereby circumventing some of the challenges related to pharmacological screening.

Published
2020
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50. Development of Highly Selective Kv1.3-Blocking Peptides Based on the Sea Anemone Peptide ShK

Author

Michael W. Pennington, Shih Chieh Chang, Satendra Chauhan, Redwan Huq, Rajeev B. Tajhya, Sandeep Chhabra, Raymond S. Norton, and Christine Beeton

Subjects
immunomodulator, T lymphocyte, potassium channel, disulfide-rich peptide, sea anemone toxin, K+ channel blocker, Biology (General), QH301-705.5
Abstract

ShK, from the sea anemone Stichodactyla helianthus, is a 35-residue disulfide-rich peptide that blocks the voltage-gated potassium channel Kv1.3 at ca. 10 pM and the related channel Kv1.1 at ca. 16 pM. We developed an analog of this peptide, ShK-186, which is currently in Phase 1b-2a clinical trials for the treatment of autoimmune diseases such as multiple sclerosis and rheumatoid arthritis. While ShK-186 displays a >100-fold improvement in selectivity for Kv1.3 over Kv1.1 compared with ShK, there is considerable interest in developing peptides with an even greater selectivity ratio. In this report, we describe several variants of ShK that incorporate p-phophono-phenylalanine at the N-terminus coupled with internal substitutions at Gln16 and Met21. In addition, we also explored the combinatorial effects of these internal substitutions with an alanine extension at the C-terminus. Their selectivity was determined by patch-clamp electrophysiology on Kv1.3 and Kv1.1 channels stably expressed in mouse fibroblasts. The peptides with an alanine extension blocked Kv1.3 at low pM concentrations and exhibited up to 2250-fold selectivity for Kv1.3 over Kv1.1. Analogs that incorporates p-phosphono-phenylalanine at the N-terminus blocked Kv1.3 with IC50s in the low pM range and did not affect Kv1.1 at concentrations up to 100 nM, displaying a selectivity enhancement of >10,000-fold for Kv1.3 over Kv1.1. Other potentially important Kv channels such as Kv1.4 and Kv1.6 were only partially blocked at 100 nM concentrations of each of the ShK analogs.

Published
2015
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