Your search keyword '"McCullagh, Elizabeth A."' showing total 29 results

1. Editorial: Neural markers of sensory processing in development

Author

Ethridge, Lauren E, Auerbach, Benjamin D, Contractor, Anis, Ethell, Iryna M, McCullagh, Elizabeth A, and Pedapati, Ernest V

Subjects

Biochemistry and Cell Biology, Biomedical and Clinical Sciences, Biological Sciences, Clinical Sciences, Neurosciences, neurodevelopment, translational methods, EEG, neurodevelopmental disorders, sensory systems, Psychology, Cognitive Sciences, Biochemistry and cell biology, Clinical sciences

Published

2023

2. Mechanisms underlying auditory processing deficits in Fragile X syndrome

Author

McCullagh, Elizabeth A, Rotschafer, Sarah E, Auerbach, Benjamin D, Klug, Achim, Kaczmarek, Leonard K, Cramer, Karina S, Kulesza, Randy J, Razak, Khaleel A, Lovelace, Jonathan W, Lu, Yong, Koch, Ursula, and Wang, Yuan

Subjects

Biomedical and Clinical Sciences, Clinical Sciences, Mental Health, Pediatric, Rare Diseases, Fragile X Syndrome, Intellectual and Developmental Disabilities (IDD), Brain Disorders, Neurosciences, Autism, 2.1 Biological and endogenous factors, Aetiology, Neurological, Mental health, Animals, Auditory Perception, Autism Spectrum Disorder, Humans, Models, Biological, auditory system, autism spectrum disorders, circuit development, Fragile X syndrome, hyperacusis, synaptic transmission, Biochemistry and Cell Biology, Physiology, Medical Physiology, Biochemistry & Molecular Biology, Biochemistry and cell biology, Medical physiology

Abstract

Autism spectrum disorders (ASD) are strongly associated with auditory hypersensitivity or hyperacusis (difficulty tolerating sounds). Fragile X syndrome (FXS), the most common monogenetic cause of ASD, has emerged as a powerful gateway for exploring underlying mechanisms of hyperacusis and auditory dysfunction in ASD. This review discusses examples of disruption of the auditory pathways in FXS at molecular, synaptic, and circuit levels in animal models as well as in FXS individuals. These examples highlight the involvement of multiple mechanisms, from aberrant synaptic development and ion channel deregulation of auditory brainstem circuits, to impaired neuronal plasticity and network hyperexcitability in the auditory cortex. Though a relatively new area of research, recent discoveries have increased interest in auditory dysfunction and mechanisms underlying hyperacusis in this disorder. This rapidly growing body of data has yielded novel research directions addressing critical questions regarding the timing and possible outcomes of human therapies for auditory dysfunction in ASD.

Published

2020

3. Effects of Pinto Bean and Resistant Starch Supplementation on Memory and Cognition in an Estrogen Deficiency Mouse Model

Author

Hurd, Jesse, Alake, Sanmi, Chandrashekar, Ranjitha, Ford, Jorja, Islam, Proapa, Lucas, Edralin, McCullagh, Elizabeth, Olawale, Femi, Smith, Brenda, and Sutton, Brooke

Published

2024

4. Enhancement of de novo sequencing, assembly and annotation of the Mongolian gerbil genome with transcriptome sequencing and assembly from several different tissues

Author

Cheng, Shifeng, Fu, Yuan, Zhang, Yaolei, Xian, Wenfei, Wang, Hongli, Grothe, Benedikt, Liu, Xin, Xu, Xun, Klug, Achim, and McCullagh, Elizabeth A.

Published

2019

5. Hearing ability of prairie voles (Microtus ochrogaster).

Author

New, Emily M., Hurd, Jessica A., Alarcon, Genesis A., Miller, Cameron S., Williams, Peyton A., Greene, Nathaniel T., Sergott, Casey E., Li, Ben-Zheng, Lei, Tim C., and McCullagh, Elizabeth A.

Subjects

MICROTUS, VOLES, INTERAURAL time difference, AUDITORY evoked response, PRAIRIES

Abstract

The hearing abilities of mammals are impacted by factors such as social cues, habitat, and physical characteristics. Despite being used commonly to study social behaviors, hearing of the monogamous prairie vole (Microtus ochrogaster) has never been characterized. In this study, anatomical features are measured and auditory brainstem responses (ABRs) are used to measure auditory capabilities of prairie voles, characterizing monaural and binaural hearing and hearing range. Sexually naive male and female voles were measured to characterize differences due to sex. It was found that prairie voles show a hearing range with greatest sensitivity between 8 and 32 kHz, binaural hearing across interaural time difference ranges appropriate for their head sizes. No differences are shown between the sexes in binaural hearing or hearing range (except at 1 kHz), however, female voles have increased amplitude of peripheral ABR waves I and II and longer latency of waves III and IV compared to males. The results confirm that prairie voles have a broad hearing range, binaural hearing consistent with rodents of similar size, and differences in amplitudes and thresholds of monaural physiological measures between the sexes. These data further highlight the necessity to understand sex-specific differences in neural processing that may underly variability in responses between sexes. [ABSTRACT FROM AUTHOR]

Published

2024

6. Metformin ameliorates core deficits in a mouse model of fragile X syndrome

Author

Gantois, Ilse, Khoutorsky, Arkady, Popic, Jelena, Aguilar-Valles, Argel, Freemantle, Erika, Cao, Ruifeng, Sharma, Vijendra, Pooters, Tine, Nagpal, Anmol, Skalecka, Agnieszka, Truong, Vinh T, Wiebe, Shane, Groves, Isabelle A, Jafarnejad, Seyed Mehdi, Chapat, Clément, McCullagh, Elizabeth A, Gamache, Karine, Nader, Karim, Lacaille, Jean-Claude, Gkogkas, Christos G, and Sonenberg, Nahum

Subjects

Drug therapy, Care and treatment, Complications and side effects, Research, Dosage and administration, Metformin -- Dosage and administration, Type 2 diabetes -- Complications and side effects, Trinucleotide repeats -- Research, Fragile X syndrome -- Care and treatment -- Drug therapy

Abstract

Author(s): Ilse Gantois [1, 2]; Arkady Khoutorsky [1, 2, 3, 4]; Jelena Popic [1, 2]; Argel Aguilar-Valles [1, 2, 5, 6]; Erika Freemantle [5, 6]; Ruifeng Cao [1, 2, 7]; [...]

Published

2017

7. Behavioral characterization of system xc- mutant mice

Author

McCullagh, Elizabeth A. and Featherstone, David E.

Published

2014

8. Tonotopic alterations in inhibitory input to the medial nucleus of the trapezoid body in a mouse model of Fragile X syndrome

Author

McCullagh, Elizabeth A., Salcedo, Ernesto, Huntsman, Molly M., and Klug, Achim

Published

2017

9. Parasite effects on receivers in animal communication: Hidden impacts on behavior, ecology, and evolution.

Author

Reichert, Michael S., Bolek, Matthew G., and McCullagh, Elizabeth A.

Subjects

ANIMAL communication, HUMAN-animal communication, SENSE organs, TELECOMMUNICATION systems, ANIMAL variation

Abstract

Parasites exert a profound effect on biological processes. In animal communication, parasite effects on signalers are well-known drivers of the evolution of communication systems. Receiver behavior is also likely to be altered when they are parasitized or at risk of parasitism, but these effects have received much less attention. Here, we present a broad framework for understanding the consequences of parasitism on receivers for behavioral, ecological, and evolutionary processes. First, we outline the different kinds of effects parasites can have on receivers, including effects on signal processing from the many parasites that inhabit, occlude, or damage the sensory periphery and the central nervous system or that affect physiological processes that support these organs, and effects on receiver response strategies. We then demonstrate how understanding parasite effects on receivers could answer important questions about the mechanistic causes and functional consequences of variation in animal communication systems. Variation in parasitism levels is a likely source of among-individual differences in response to signals, which can affect receiver fitness and, through effects on signaler fitness, impact population levels of signal variability. The prevalence of parasitic effects on specific sensory organs may be an important selective force for the evolution of elaborate and multimodal signals. Finally, host–parasite coevolution across heterogeneous landscapes will generate geographic variation in communication systems, which could ultimately lead to evolutionary divergence. We discuss applications of experimental techniques to manipulate parasitism levels and point the way forward by calling for integrative research collaborations between parasitologists, neurobiologists, and behavioral and evolutionary ecologists. [ABSTRACT FROM AUTHOR]

Published

2023

10. Current Best Practices for Analysis of Dendritic Spine Morphology and Number in Neurodevelopmental Disorder Research.

Author

Li, Ben-Zheng, Sumera, Anna, Booker, Sam A, and McCullagh, Elizabeth A.

Published

2023

11. Editorial: Neural markers of sensory processing in development.

Author

Ethridge, Lauren E., Auerbach, Benjamin D., Contractor, Anis, Ethell, Iryna M., McCullagh, Elizabeth A., and Pedapati, Ernest V.

Subjects

SENSORIMOTOR integration, FRAGILE X syndrome, MEDICAL sciences, AUDITORY evoked response, NEURAL codes

Published

2023

12. Auditory brainstem development of naked mole-rats (Heterocephalus glaber).

Author

McCullagh, Elizabeth A., Peacock, John, Lucas, Alexandra, Poleg, Shani, Greene, Nathaniel T., Gaut, Addison, Lagestee, Samantha, Zhang, Yalan, Kaczmarek, Leonard K., Park, Thomas J., Tollin, Daniel J., and Klug, Achim

Subjects

*NAKED mole rat, *BRAIN stem, *AUDITORY pathways, *HIPPOCAMPUS development, *POTASSIUM channels, *AUDITORY perception, *NUDITY, *NEURAL development

Abstract

Life underground often leads to animals having specialized auditory systems to accommodate the constraints of acoustic transmission in tunnels. Despite living underground, naked mole-rats use a highly vocal communication system, implying that they rely on central auditory processing. However, little is known about these animals' central auditory system, and whether it follows a similar developmental time course as other rodents. Naked mole-rats show slowed development in the hippocampus suggesting they have altered brain development compared to other rodents. Here, we measured morphological characteristics and voltage-gated potassium channel Kv3.3 expression and protein levels at different key developmental time points (postnatal days 9, 14, 21 and adulthood) to determine whether the auditory brainstem (lateral superior olive and medial nucleus of the trapezoid body) develops similarly to two common auditory rodent model species: gerbils and mice. Additionally, we measured the hearing onset of naked mole-rats using auditory brainstem response recordings at the same developmental timepoints. In contrast with other work in naked mole-rats showing that they are highly divergent in many aspects of their physiology, we show that naked mole-rats have a similar hearing onset, between postnatal day (P) 9 and P14, to many other rodents. On the other hand, we show some developmental differences, such as a unique morphology and Kv3.3 protein levels in the brainstem. [ABSTRACT FROM AUTHOR]

Published

2022

13. Editorial: Recent advances in mechanisms and therapeutics for Fragile X Syndrome and autism.

Author

Molinaro, Gemma, Huber, Kimberly M., McCullagh, Elizabeth A., and Thomson, Sophie R.

Subjects

FRAGILE X syndrome, AUTISM, AUTISM spectrum disorders

Published

2023

14. Auditory Brain Stem Responses in the C57BL/6J Fragile X Syndrome-Knockout Mouse Model.

Author

Chawla, Amita and McCullagh, Elizabeth A.

Subjects

BRAIN stem, FRAGILE X syndrome, LABORATORY mice, ANIMAL disease models, INTERAURAL time difference, AUDITORY processing disorder, INTELLECTUAL disabilities

Abstract

Sensory hypersensitivity, especially in the auditory system, is a common symptom in Fragile X syndrome (FXS), the most common monogenic form of intellectual disability. However, linking phenotypes across genetic background strains of mouse models has been a challenge and could underly some of the issues with translatability of drug studies to the human condition. This study is the first to characterize the auditory brain stem response (ABR), a minimally invasive physiological readout of early auditory processing that is also used in humans, in a commonly used mouse background strain model of FXS, C57BL/6J. We measured morphological features of pinna and head and used ABR to measure the hearing range, and monaural and binaural auditory responses in hemizygous males, homozygous females, and heterozygous females compared with those in wild-type mice. Consistent with previous study, we showed no difference in morphological parameters across genotypes or sexes. There was no significant difference in hearing range between the sexes or genotypes, however there was a trend towards high frequency hearing loss in male FXS mice. In contrast, female mice with homozygous FXS had a decreased amplitude of wave IV of the monaural ABR, while there was no difference in males for amplitudes and no change in latency of ABR waveforms across sexes and genotypes. Finally, males with FXS had an increased latency of the binaural interaction component (BIC) at 0 interaural timing difference compared with that in wild-type males. These findings further clarify auditory brain stem processing in FXS by adding more information across genetic background strains allowing for a better understanding of shared phenotypes. [ABSTRACT FROM AUTHOR]

Published

2022

15. Myelination Deficits in the Auditory Brainstem of a Mouse Model of Fragile X Syndrome.

Author

Lucas, Alexandra, Poleg, Shani, Klug, Achim, and McCullagh, Elizabeth A.

Subjects

FRAGILE X syndrome, INTELLECTUAL disabilities, LABORATORY mice, RAMAN spectroscopy, MYELINATION, BRAIN stem

Abstract

Auditory symptoms are one of the most frequent sensory issues described in people with Fragile X Syndrome (FXS), the most common genetic form of intellectual disability. However, the mechanisms that lead to these symptoms are under explored. In this study, we examined whether there are defects in myelination in the auditory brainstem circuitry. Specifically, we studied myelinated fibers that terminate in the Calyx of Held, which encode temporally precise sound arrival time, and are some of the most heavily myelinated axons in the brain. We measured anatomical myelination characteristics using coherent anti-stokes Raman spectroscopy (CARS) and electron microscopy (EM) in a FXS mouse model in the medial nucleus of the trapezoid body (MNTB) where the Calyx of Held synapses. We measured number of mature oligodendrocytes (OL) and oligodendrocyte precursor cells (OPCs) to determine if changes in myelination were due to changes in the number of myelinating or immature glial cells. The two microscopy techniques (EM and CARS) showed a decrease in fiber diameter in FXS mice. Additionally, EM results indicated reductions in myelin thickness and axon diameter, and an increase in g-ratio, a measure of structural and functional myelination. Lastly, we showed an increase in both OL and OPCs in MNTB sections of FXS mice suggesting that the myelination phenotype is not due to an overall decrease in number of myelinating OLs. This is the first study to show that a myelination defects in the auditory brainstem that may underly auditory phenotypes in FXS. [ABSTRACT FROM AUTHOR]

Published

2021

16. Low-latency single channel real-time neural spike sorting system based on template matching.

Author

Wang, Pan Ke, Pun, Sio Hang, Chen, Chang Hao, McCullagh, Elizabeth A., Klug, Achim, Li, Anan, Vai, Mang I., Mak, Peng Un, and Lei, Tim C.

Subjects

GATE array circuits, MONGOLIAN gerbil, NEURAL circuitry, BEHAVIORAL neuroscience, ARTIFICIAL neural networks

Abstract

Recent technical advancements in neural engineering allow for precise recording and control of neural circuits simultaneously, opening up new opportunities for closed-loop neural control. In this work, a rapid spike sorting system was developed based on template matching to rapidly calculate instantaneous firing rates for each neuron in a multi-unit extracellular recording setting. Cluster templates were first generated by a desktop computer using a non-parameter spike sorting algorithm (Super-paramagnetic clustering) and then transferred to a field-programmable gate array digital circuit for rapid sorting through template matching. Two different matching techniques–Euclidean distance (ED) and correlational matching (CM)–were compared for the accuracy of sorting and the performance of calculating firing rates. The performance of the system was first verified using publicly available artificial data and was further confirmed with pre-recorded neural spikes from an anesthetized Mongolian gerbil. Real-time recording and sorting from an awake mouse were also conducted to confirm the system performance in a typical behavioral neuroscience experimental setting. Experimental results indicated that high sorting accuracies were achieved for both template-matching methods, but CM can better handle spikes with non-Gaussian spike distributions, making it more robust for in vivo recording. The technique was also compared to several other off-line spike sorting algorithms and the results indicated that the sorting accuracy is comparable but sorting time is significantly shorter than these other techniques. A low sorting latency of under 2 ms and a maximum spike sorting rate of 941 spikes/second have been achieved with our hybrid hardware/software system. The low sorting latency and fast sorting rate allow future system developments of neural circuit modulation through analyzing neural activities in real-time. [ABSTRACT FROM AUTHOR]

Published

2019

17. Request a woman scientist: A database for diversifying the public face of science.

Author

McCullagh, Elizabeth A., Nowak, Katarzyna, Pogoriler, Anne, Metcalf, Jessica L., Zaringhalam, Maryam, and Zelikova, T. Jane

Subjects

*WOMEN scientists, *WOMEN volunteers, *WOMEN in science, *LIFE sciences, *DATABASES

Abstract

A global online register of women scientists, ready to share their science, was established by a cohort of volunteer women from the grassroots organization 500 Women Scientists on January 17th, 2018. In less than one year, the database “Request a Woman Scientist” comprised over 7,500 women from 174 scientific disciplines and 133 countries. The database is built upon a voluntary questionnaire regarding career stage, degree, scientific discipline, geographic location, and other self-identifying dimensions of representation. The information was visualized using the software platform Tableau, with dropdown menus that help query the database and output a list of names, email addresses, and websites. The biological sciences and women scientists from the United States of America were best represented in the database. A survey of women in the database conducted in November 2018 showed that of 1,278 respondents, 11% had been contacted since signing up for a variety of engagements, including media, peer review, panel participation, educational outreach, and professional/research connections. These engagements resulted in consultations for articles, video chats with students, and speaking opportunities at conferences and events. With improved functionality and marketing, outreach in the global south, and future translation in other languages, this database will further promote the profile and participation of women scientists across society, which in turn will benefit the advancement of science. [ABSTRACT FROM AUTHOR]

Published

2019

18. An Integrated Circuit for Simultaneous Extracellular Electrophysiology Recording and Optogenetic Neural Manipulation.

Author

Chen, Chang Hao, McCullagh, Elizabeth A., Pun, Sio Hang, Mak, Peng Un, Vai, Mang I, Mak, Pui In, Klug, Achim, and Lei, Tim C.

Subjects

*INTEGRATED circuits, *LIGHT emitting diodes, *NEURAL circuitry, *BRAIN function localization, *BIOELECTRIC impedance

Abstract

Objective: The ability to record and to control action potential firing in neuronal circuits is critical to understand how the brain functions. The objective of this study is to develop a monolithic integrated circuit (IC) to record action potentials and simultaneously control action potential firing using optogenetics. Methods: A low-noise and high input impedance (or low input capacitance) neural recording amplifier is combined with a high current laser/light-emitting diode (LED) driver in a single IC. Results: The low input capacitance of the amplifier (9.7 pF) was achieved by adding a dedicated unity gain stage optimized for high impedance metal electrodes. The input referred noise of the amplifier is \text4.57\,\mu \rmV{\rm{rms}}, which is lower than the estimated thermal noise of the metal electrode. Thus, the action potentials originating from a single neuron can be recorded with a signal-to-noise ratio of at least 6.6. The LED/laser current driver delivers a maximum current of 330 mA, which is adequate for optogenetic control. The functionality of the IC was tested with an anesthetized Mongolian gerbil and auditory stimulated action potentials were recorded from the inferior colliculus. Spontaneous firings of fifth (trigeminal) nerve fibers were also inhibited using the optogenetic protein Halorhodopsin. Moreover, a noise model of the system was derived to guide the design. Significance: A single IC to measure and control action potentials using optogenetic proteins is realized so that more complicated behavioral neuroscience research and the translational neural disorder treatments become possible in the future. [ABSTRACT FROM AUTHOR]

Published

2017

19. Editorial: Alterations in the Sound Localization Pathway Related to Impaired Cocktail-Party Performance.

Author

McCullagh, Elizabeth A., Kaczmarek, Leonard K., Tollin, Daniel J., and Klug, Achim

Subjects

DIRECTIONAL hearing, ACOUSTIC localization, WORD deafness, FRAGILE X syndrome, INTERAURAL time difference

Abstract

The sound localization pathway in the auditory brainstem contributes to this ability by associating various competing sounds with their respective spatial channel. Keywords: sound localization; cocktail party effect; auditory; brainstem; interaural time and intensity differences EN sound localization cocktail party effect auditory brainstem interaural time and intensity differences 1 2 2 04/28/22 20220425 NES 220425 Binaural and spatial hearing allows us to localize the source of a sound and to function in complex acoustic environments. [Extracted from the article]

Published

2022

20. Plumage color and reproductive output of eastern bluebirds ( Sialia sialis ) nesting near a mercury-contaminated river.

Author

McCullagh, Elizabeth A., Cristol, Daniel A., and Phillips, John B.

Subjects

*COLOR of birds, *EASTERN bluebird, *MERCURY wastes, *BIRD reproduction, *RIVER ecology

Abstract

Despite the growing evidence of mercury's impact on ecosystems, few studies have looked at the environmental impact of mercury pollution on terrestrial songbirds and the complex ways through which mercury might influence their fitness. In 2007–2008 eastern bluebirds (Sialia sialis) were monitored on mercury contaminated and reference sites for blood and feather mercury, reproductive success and plumage coloration. Higher tissue mercury accumulation was associated with plumage that was overall brighter and shifted towards the UV portion of the spectrum. In females, long-term mercury exposure, as indicated by feather mercury, was associated with smaller clutches of eggs. In males, recent mercury exposure, as indicated by blood mercury, was associated with a reduction in the proportion of hatchlings that fledged, potentially through reduced male provisioning of offspring. Reproductive success and plumage color are closely linked in bluebirds through mate choice, and our findings indicate that mercury contamination is associated with reproductive success directly and possibly indirectly, through coloration of bluebirds. [ABSTRACT FROM AUTHOR]

Published

2015

21. Determining striatal extracellular glutamate levels in xCT mutant mice using LFPS CE-LIF.

Author

Borra, Srivani, McCullagh, Elizabeth A., Featherstone, David E., Baker, Phillip M., Ragozzino, Michael E., and Shippy, Scott A.

Published

2014

22. The continued importance of comparative auditory research to modern scientific discovery.

Author

Capshaw, Grace, Brown, Andrew D., Peña, José L., Carr, Catherine E., Christensen-Dalsgaard, Jakob, Tollin, Daniel J., Womack, Molly C., and McCullagh, Elizabeth A.

Subjects

*SCIENTIFIC discoveries, *AUDITORY perception, *COMPARATIVE method, *CENTRAL nervous system, *DIRECTIONAL hearing

Abstract

• Comparative research has driven many important discoveries in the auditory field. • There are many questions that a comparative approach is uniquely suited to address. • New tools allow for a diversity of measurements across species. A rich history of comparative research in the auditory field has afforded a synthetic view of sound information processing by ears and brains. Some organisms have proven to be powerful models for human hearing due to fundamental similarities (e.g., well-matched hearing ranges), while others feature intriguing differences (e.g., atympanic ears) that invite further study. Work across diverse "non-traditional" organisms, from small mammals to avians to amphibians and beyond, continues to propel auditory science forward, netting a variety of biomedical and technological advances along the way. In this brief review, limited primarily to tetrapod vertebrates, we discuss the continued importance of comparative studies in hearing research from the periphery to central nervous system with a focus on outstanding questions such as mechanisms for sound capture, peripheral and central processing of directional/spatial information, and non-canonical auditory processing, including efferent and hormonal effects. [ABSTRACT FROM AUTHOR]

Published

2023

23. Exposure to novel females increases fecundity in adult male prairie voles.

Author

Hurd JA, Watanabe YL, Toben GJ, Ford AK, Miller CA, Sergott CE, Kelley D, Donaldson ZR, and McCullagh EA

Abstract

Social circuitry of the mammalian brain can influence male reproductive physiology. This often manifests as plasticity in sperm production or allocation, particularly in response to male-male competition. However, socially mediated testicular plasticity has not been investigated with respect to mating and parental strategy. Testis mass and sperm production of sexually naïve and female-exposed adult male individuals of three rodent species were compared: the socially monogamous and paternal prairie vole ( Microtus ochrogaster ), the promiscuous and non-paternal meadow vole ( Microtus pennsylvanicus ), and the promiscuous and non-paternal house mouse ( Mus musculus ). Monogamously paired prairie vole males exhibited significantly larger testes and greater sperm production than naïve prairie vole males. Comparatively, there were no significant differences between naïve and monogamously paired male meadow voles or mice. To investigate the role of olfactory cues for regulating this phenomenon in prairie voles, a group of naïve males exposed to soiled bedding from novel females was used. These males were more similar to paired males than to naïve males not exposed to novel female odors, demonstrating a strong role of the social olfactory system. Further, while the predictions of sperm competition theory (species with greater female promiscuity have larger testes than closely related species with less female promiscuity) are consistent between naïve meadow voles and prairie voles, the prediction does not hold for monogamously paired prairie voles and meadow voles. This demonstrates the complexity of internal social dynamics and reproductive pressures which socially monogamous paternal males face and the evolutionary adaptions that may develop in response., Competing Interests: Declaration of Competing Interest: None.

Published

2024

24. Hearing in Two Closely Related Peromyscus Species ( Peromyscus maniculatus and P. leucopus ).

Author

Joseph L, New EM, Joseph DM, Woodley TC, Franco VY, Li BZ, Wogan GO, and McCullagh EA

Abstract

The genus Peromyscus has been extensively used as a model for ecological, behavioral, and evolutionary investigations. We used auditory brainstem responses (ABRs), craniofacial morphology, and pinna measurements to compare characteristics that impact hearing in two wild-caught species, P. leucopus P. maniculatus . We observed significant statistical differences in craniofacial and pinna attributes between species with P. leucopus overall exhibiting larger features than P. maniculatus . ABR recordings indicated that both species showed similar best frequency thresholds between 8-24 kHz. We found significant effects of intensity on amplitude ratio of wave I and IV for P. maniculatus , but not P. leucopus and effects of wave number on slope of the latency-intensity function with higher wave IV and shorter wave I slope of latency intensity function in P. leucopus . Finally, the data showed significant differences in latency shift of the DN1 component of the BIC in relation to ITD between species, while no significant differences were observed across relative DN1 amplitude. This study supports the used of P. leucopus and P. maniculatus as future model species for auditory research., Competing Interests: COMPETING INTERESTS The authors declare no competing interests.

Published

2024

25. Sex-specific loss of mitochondrial membrane integrity in the auditory brainstem of a mouse model of Fragile X syndrome.

Author

Caron C, McCullagh EA, and Bertolin G

Abstract

Sound sensitivity is one of the most common sensory complaints for people with autism spectrum disorders (ASDs). How and why sounds are perceived as overwhelming by affected people is unknown. To process sound information properly, the brain requires high activity and fast processing, as seen in areas like the medial nucleus of the trapezoid body (MNTB) of the auditory brainstem. Recent work has shown dysfunction in mitochondria, which are the primary source of energy in cells, in a genetic model of ASD, Fragile X syndrome (FXS). Whether mitochondrial functions are also altered in sound-processing neurons, has not been characterized yet. To address this question, we imaged the MNTB in a mouse model of FXS. We stained MNTB brain slices from wild-type and FXS mice with two mitochondrial markers, TOMM20 and PMPCB, located on the Outer Mitochondrial Membrane and in the matrix, respectively. These markers allow exploration of mitochondrial subcompartments. Our integrated imaging pipeline reveals significant sex-specific differences between genotypes. Colocalization analyses between TOMM20 and PMPCB reveal that the integrity of mitochondrial subcompartments is most disrupted in female FXS mice compared to female wildtype mice. We highlight a quantitative fluorescence microscopy pipeline to monitor mitochondrial functions in the MNTB from control or FXS mice and provide four complementary readouts. Our approach paves the way to understanding how cellular mechanisms important to sound encoding are altered in ASDs., Competing Interests: Declaration of Interests The authors declare no conflicts of interest

Published

2024

26. Diet in treatment of autism spectrum disorders.

Author

Alam S, Westmark CJ, and McCullagh EA

Abstract

Altering the diet to treat disease dates to c. 400 BC when starvation was used to reduce seizures in persons with epilepsy. The current diversity of symptomology and mechanisms underlying autism spectrum disorders (ASDs) and a corresponding lack of disorder-specific effective treatments prompts an evaluation of diet as a therapeutic approach to improve symptoms of ASDs. In this review article, we summarize the main findings of nutritional studies in ASDs, with an emphasis on the most common monogenic cause of autism, Fragile X Syndrome (FXS), and the most studied dietary intervention, the ketogenic diet as well as other dietary interventions. We also discuss the gut microbiota in relation to pre- and probiotic therapies and provide insight into future directions that could aid in understanding the mechanism(s) underlying dietary efficacy., Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2023 Alam, Westmark and McCullagh.)

Published

2023

27. Coherent Anti-Stokes Raman Spectroscopy (CARS) Application for Imaging Myelination in Brain Slices.

Author

McCullagh EA, Poleg S, Stich D, Moldovan R, and Klug A

Subjects

Brain, Myelin Sheath, Vibration, Microscopy methods, Spectrum Analysis, Raman methods

Abstract

Coherent anti-Stokes Raman spectroscopy (CARS) is a technique classically employed by chemists and physicists to produce a coherent signal of signature vibrations of molecules. However, these vibrational signatures are also characteristic of molecules within anatomical tissue such as the brain, making it increasingly useful and applicable for Neuroscience applications. For example, CARS can measure lipids by specifically exciting chemical bonds within these molecules, allowing for quantification of different aspects of tissue, such as myelin involved in neurotransmission. In addition, compared to other techniques typically used to quantify myelin, CARS can also be set up to be compatible with immunofluorescent techniques, allowing for co-labeling with other markers such as sodium channels or other components of synaptic transmission. Myelination changes are an inherently important mechanism in demyelinating diseases such as multiple sclerosis or other neurological conditions such as Fragile X Syndrome or autism spectrum disorders is an emerging area of research. In conclusion, CARS can be utilized in innovative ways to answer pressing questions in Neuroscience and provide evidence for underlying mechanisms related to many different neurological conditions.

Published

2022

28. Characterization of Auditory and Binaural Spatial Hearing in a Fragile X Syndrome Mouse Model.

Author

McCullagh EA, Poleg S, Greene NT, Huntsman MM, Tollin DJ, and Klug A

Subjects

Acoustic Stimulation, Animals, Fragile X Mental Retardation Protein genetics, Mice, Mice, Knockout, Fragile X Syndrome genetics, Hearing

Abstract

The auditory brainstem compares sound-evoked excitation and inhibition from both ears to compute sound source location and determine spatial acuity. Although alterations to the anatomy and physiology of the auditory brainstem have been demonstrated in fragile X syndrome (FXS), it is not known whether these changes cause spatial acuity deficits in FXS. To test the hypothesis that FXS-related alterations to brainstem circuits impair spatial hearing abilities, a reflexive prepulse inhibition (PPI) task, with variations in sound (gap, location, masking) as the prepulse stimulus, was used on Fmr1 knock-out mice and B6 controls. Specifically, Fmr1 mice show decreased PPI compared with wild-type mice during gap detection, changes in sound source location, and spatial release from masking with no alteration to their overall startle thresholds compared with wild-type mice. Last, Fmr1 mice have increased latency to respond in these tasks, suggesting additional impairments in the pathway responsible for reacting to a startling sound. This study further supports data in humans with FXS that show similar deficits in PPI., (Copyright © 2020 McCullagh et al.)

Published

2020

29. Effects of an Extended Cage-change Interval on Ammonia Levels and Reproduction in Mongolian Gerbils ( Meriones unguiculatus ).

Author

McCullagh EA, McCullagh P, Klug A, Leszczynski JK, and Fong DL

Subjects

Animals, Body Weight, Female, Humidity, Litter Size, Male, Reproduction, Temperature, Weaning, Ammonia analysis, Gerbillinae physiology, Housing, Animal, Urine chemistry

Abstract

Prompted by the cage cleanliness of Mongolian gerbils (Meriones unguiculatus), we evaluated a prolonged cage-change interval. We compared the effects of a 2-wk and 6-wk cage-change schedule on ammonia levels, temperature, humidity, and reproductive performance in breeding pairs housed in IVC. We hypothesized that ammonia levels would remain below our threshold for cage changing and that reproductive performance would not be affected. Although ammonia levels increased over time, they remained low (less than 5 ppm) over the 6-wk period. In addition, the 6-wk cage-change interval did not significantly influence reproductive parameters, such as average pup weaning weight, number of litters, and number of pups per litter. We conclude that an extended cage-change interval (6-wk) can be used for gerbils without significant increases in intracage ammonia levels or effects on reproduction.

Published

2017