Your search keyword '"O'Connell LA"' showing total 93 results

51. Understanding the Loss of Maternal Care in Avian Brood Parasites Using Preoptic Area Transcriptome Comparisons in Brood Parasitic and Non-parasitic Blackbirds.

Author

Lynch KS, O'Connell LA, Louder MIM, Balakrishnan CN, and Fischer EK

Subjects

Acetylcholinesterase genetics, Acetylcholinesterase metabolism, Animals, Early Growth Response Protein 1 genetics, Early Growth Response Protein 1 metabolism, Female, Gene Expression Profiling, Neuropeptides genetics, Neuropeptides metabolism, Passeriformes genetics, Preoptic Area metabolism, Receptors, Bombesin genetics, Receptors, Bombesin metabolism, Receptors, Nerve Growth Factor genetics, Receptors, Nerve Growth Factor metabolism, Receptors, Prolactin metabolism, Somatostatin genetics, Somatostatin metabolism, Behavior, Animal, Maternal Behavior, Passeriformes physiology

Abstract

Parental care is critical for offspring survival in many species. However, parental behaviors have been lost in roughly 1% of avian species known as the obligate brood parasites. To shed light on molecular and neurobiological mechanisms mediating brood parasitic behavior, we compared brain gene expression patterns between two brood parasitic species and one closely related non-parasitic Icterid (blackbird) species. Our analyses focused on gene expression changes specifically in the preoptic area (POA), a brain region known to play a critical role in parental behavior across vertebrates. Using comparative transcriptomic approaches, we identified gene expression patterns associated with brood parasitism. We evaluated three non-mutually exclusive alternatives for the evolution of brood parasitism: (1) retention of juvenile-like (neotenic) gene expression, (2) reduced expression of maternal care-related genes in the POA, and/or (3) increased expression of genes inhibiting maternal care. We find evidence for neotenic expression patterns in both species of parasitic cowbirds as compared to maternal, non-parasites. In addition, we observed differential expression in a number of genes with previously established roles in mediating maternal care. Together, these results provide the first insight into transcriptomic and genetic mechanisms underlying the loss of maternal behavior in avian brood parasites., (Copyright © 2019 Lynch et al.)

Published

2019

52. Conserved transcriptomic profiles underpin monogamy across vertebrates.

Author

Young RL, Ferkin MH, Ockendon-Powell NF, Orr VN, Phelps SM, Pogány Á, Richards-Zawacki CL, Summers K, Székely T, Trainor BC, Urrutia AO, Zachar G, O'Connell LA, and Hofmann HA

Subjects

Animals, Anura genetics, Arvicolinae genetics, Brain physiology, Cichlids genetics, Gene Expression genetics, Male, Mice, Pair Bond, Peromyscus genetics, Phylogeny, Reproduction genetics, Sexual Behavior, Animal physiology, Songbirds genetics, Species Specificity, Transcriptome genetics, Vertebrates genetics

Abstract

Social monogamy, typically characterized by the formation of a pair bond, increased territorial defense, and often biparental care, has independently evolved multiple times in animals. Despite the independent evolutionary origins of monogamous mating systems, several homologous brain regions and neuropeptides and their receptors have been shown to play a conserved role in regulating social affiliation and parental care, but little is known about the neuromolecular mechanisms underlying monogamy on a genomic scale. Here, we compare neural transcriptomes of reproductive males in monogamous and nonmonogamous species pairs of Peromyscus mice, Microtus voles, parid songbirds, dendrobatid frogs, and Xenotilapia species of cichlid fishes. We find that, while evolutionary divergence time between species or clades did not explain gene expression similarity, characteristics of the mating system correlated with neural gene expression patterns, and neural gene expression varied concordantly across vertebrates when species transition to monogamy. Our study provides evidence of a universal transcriptomic mechanism underlying the evolution of monogamy in vertebrates., Competing Interests: The authors declare no conflict of interest

Published

2019

53. Seasonal changes in diet and chemical defense in the Climbing Mantella frog (Mantella laevigata).

Author

Moskowitz NA, Roland AB, Fischer EK, Ranaivorazo N, Vidoudez C, Aguilar MT, Caldera SM, Chea J, Cristus MG, Crowdis JP, DeMessie B, desJardins-Park CR, Effenberger AH, Flores F, Giles M, He EY, Izmaylov NS, Lee CC, Pagel NA, Phu KK, Rosen LU, Seda DA, Shen Y, Vargas S, Murray AW, Abebe E, Trauger SA, Donoso DA, Vences M, and O'Connell LA

Subjects

Alkaloids metabolism, Animals, Arthropods, Female, Gas Chromatography-Mass Spectrometry, Humidity, Madagascar, Poisons metabolism, Predatory Behavior physiology, Seasons, Skin chemistry, Skin metabolism, Temperature, Alkaloids analysis, Animals, Poisonous physiology, Anura physiology, Feeding Behavior physiology, Poisons analysis

Abstract

Poison frogs acquire chemical defenses from the environment for protection against potential predators. These defensive chemicals are lipophilic alkaloids that are sequestered by poison frogs from dietary arthropods and stored in skin glands. Despite decades of research focusing on identifying poison frog alkaloids, we know relatively little about how environmental variation and subsequent arthropod availability impacts alkaloid loads in poison frogs. We investigated how seasonal environmental variation influences poison frog chemical profiles through changes in the diet of the Climbing Mantella (Mantella laevigata). We collected M. laevigata females on the Nosy Mangabe island reserve in Madagascar during the wet and dry seasons and tested the hypothesis that seasonal differences in rainfall is associated with changes in diet composition and skin alkaloid profiles of M. laevigata. The arthropod diet of each frog was characterized into five groups (i.e. ants, termites, mites, insect larvae, or 'other') using visual identification and cytochrome oxidase 1 DNA barcoding. We found that frog diet differed between the wet and dry seasons, where frogs had a more diverse diet in the wet season and consumed a higher percentage of ants in the dry season. To determine if seasonality was associated with variation in frog defensive chemical composition, we used gas chromatography / mass spectrometry to quantify alkaloids from individual skin samples. Although the assortment of identified alkaloids was similar across seasons, we detected significant differences in the abundance of certain alkaloids, which we hypothesize reflects seasonal variation in the diet of M. laevigata. We suggest that these variations could originate from seasonal changes in either arthropod leaf litter composition or changes in frog behavioral patterns. Although additional studies are needed to understand the consequences of long-term environmental shifts, this work suggests that alkaloid profiles are relatively robust against short-term environmental perturbations., Competing Interests: The authors have declared that no competing interests exist.

Published

2018

54. Diversity within diversity: Parasite species richness in poison frogs assessed by transcriptomics.

Author

Santos JC, Tarvin RD, O'Connell LA, Blackburn DC, and Coloma LA

Subjects

Animals, Biodiversity, Genetic Speciation, Host-Parasite Interactions genetics, Phylogeny, Poisons, Species Specificity, Transcriptome genetics, Anura genetics, Anura parasitology, Gene Expression Profiling, Parasites physiology

Abstract

Symbionts (e.g., endoparasites and commensals) play an integral role in their host's ecology, yet in many cases their diversity is likely underestimated. Although endoparasites are traditionally characterized using morphology, sequences of conserved genes, and shotgun metagenomics, host transcriptomes constitute an underused resource to identify these organisms' diversity. By isolating non-host transcripts from host transcriptomes, individual host tissues can now simultaneously reveal their endoparasite species richness (i.e., number of different taxa) and provide insights into parasite gene expression. These approaches can be used in host taxa whose endoparasites are mostly unknown, such as those of tropical amphibians. Here, we focus on the poison frogs (Dendrobatidae) as hosts, which are a Neotropical clade known for their bright coloration and defensive alkaloids. These toxins are an effective protection against vertebrate predators (e.g., snakes and birds), bacteria, and skin-biting ectoparasites (e.g., mosquitoes); however, little is known about their deterrence against eukaryotic endoparasites. With de novo transcriptomes of dendrobatids, we developed a bioinformatics pipeline for endoparasite identification that uses host annotated RNA-seq data and set of a priori parasite taxonomic terms, which are used to mine for specific endoparasites. We found a large community of helminths and protozoans that were mostly restricted to the digestive tract and a few systemic parasites (e.g., Trypanosoma). Contrary to our expectations, all dendrobatid frogs regardless of the presence of alkaloid defenses have endoparasites, with their highest species richness located in the frog digestive tract. Some of these organisms (e.g., roundworms) might prove to be generalists, as they were not found to be co-diversifying with their frog hosts. We propose that endoparasites may escape poison frogs' chemical defenses by colonizing tissues with fewer alkaloids than the frog's skin, where most toxins are stored., (Copyright © 2018 Elsevier Inc. All rights reserved.)

Published

2018

55. Protection from UV light is an evolutionarily conserved feature of the haematopoietic niche.

Author

Kapp FG, Perlin JR, Hagedorn EJ, Gansner JM, Schwarz DE, O'Connell LA, Johnson NS, Amemiya C, Fisher DE, Wölfle U, Trompouki E, Niemeyer CM, Driever W, and Zon LI

Subjects

Animals, Aquatic Organisms classification, Cytoprotection radiation effects, DNA Damage radiation effects, Kidney, Mutation, Petromyzon classification, Phylogeny, Pyrimidine Dimers radiation effects, Stem Cell Niche physiology, Zebrafish classification, Zebrafish genetics, Biological Evolution, Hematopoietic Stem Cells cytology, Hematopoietic Stem Cells radiation effects, Melanocytes cytology, Melanocytes radiation effects, Stem Cell Niche radiation effects, Ultraviolet Rays adverse effects

Abstract

Haematopoietic stem and progenitor cells (HSPCs) require a specific microenvironment, the haematopoietic niche, which regulates HSPC behaviour 1,2 . The location of this niche varies across species, but the evolutionary pressures that drive HSPCs to different microenvironments remain unknown. The niche is located in the bone marrow in adult mammals, whereas it is found in other locations in non-mammalian vertebrates, for example, in the kidney marrow in teleost fish. Here we show that a melanocyte umbrella above the kidney marrow protects HSPCs against ultraviolet light in zebrafish. Because mutants that lack melanocytes have normal steady-state haematopoiesis under standard laboratory conditions, we hypothesized that melanocytes above the stem cell niche protect HSPCs against ultraviolet-light-induced DNA damage. Indeed, after ultraviolet-light irradiation, unpigmented larvae show higher levels of DNA damage in HSPCs, as indicated by staining of cyclobutane pyrimidine dimers and have reduced numbers of HSPCs, as shown by cmyb (also known as myb) expression. The umbrella of melanocytes associated with the haematopoietic niche is highly evolutionarily conserved in aquatic animals, including the sea lamprey, a basal vertebrate. During the transition from an aquatic to a terrestrial environment, HSPCs relocated into the bone marrow, which is protected from ultraviolet light by the cortical bone around the marrow. Our studies reveal that melanocytes above the haematopoietic niche protect HSPCs from ultraviolet-light-induced DNA damage in aquatic vertebrates and suggest that during the transition to terrestrial life, ultraviolet light was an evolutionary pressure affecting the location of the haematopoietic niche.

Published

2018

56. Circuit Architecture Underlying Distinct Components of Parental Care.

Author

Fischer EK and O'Connell LA

Subjects

Animals, Brain, Hypothalamus, Mice, Galanin, Neurons

Abstract

Parental care is a key evolutionary innovation that influences the fitness of parents and offspring. How the brain coordinates such a complex behavior remains poorly understood. Kohl and colleagues recently uncovered the organizational principles of hypothalamic galanin neurons and their connections in mice. Their findings revealed a striking picture in which discrete neuronal pools control distinct aspects of parental behavior., (Copyright © 2018 Elsevier Ltd. All rights reserved.)

Published

2018

57. Variation in social systems within Chaetodon butterflyfishes, with special reference to pair bonding.

Author

Nowicki JP, O'Connell LA, Cowman PF, Walker SPW, Coker DJ, and Pratchett MS

Subjects

Aggression, Animals, Australia, Biological Evolution, Female, Geography, Male, Phylogeny, Social Behavior, Species Specificity, Stochastic Processes, Behavior, Animal, Pair Bond, Perciformes physiology

Abstract

For many animals, affiliative relationships such as pair bonds form the foundation of society and are highly adaptive. Animal systems amenable for comparatively studying pair bonding are important for identifying underlying biological mechanisms, but mostly exist in mammals. Better establishing fish systems will enable comparison of pair bonding mechanisms across taxonomically distant lineages that may reveal general underlying mechanistic principles. We examined the utility of wild butterflyfishes (f: Chaetodontidae; g: Chaetodon) for comparatively studying pair bonding. Using stochastic character mapping, we provide the first analysis of the evolutionary history of butterflyfish sociality, revealing that pairing is ancestral, with at least seven independent transitions to gregarious grouping and solitary behavior since the late Miocene. We then formally verified social systems in six sympatric and wide-spread species representing a clade with one ancestrally reconstructed transition from paired to solitary grouping at Lizard Island, Australia. In situ observations of the size, selective affiliation and aggression, fidelity, and sex composition of social groups confirmed that Chaetodon baronessa, C. lunulatus, and C. vagabundus are predominantly pair bonding, whereas C. rainfordi, C. plebeius, and C. trifascialis are predominantly solitary. Even in the predominantly pair bonding species, C. lunulatus, a proportion of adults (15%) are solitary. Importantly, inter- and intra-specific differences in social systems do not co-vary with other previously established attributes, including parental care. Hence, the proposed butterflyfish populations are promising for inter- and intra-species comparative analyses of pair bonding and its mechanistic underpinnings. Avenues for further developing the system are proposed, including determining whether the aforementioned utility of these species applies across their geographic disruptions.

Published

2018

58. Divergence in problem-solving skills is associated with differential expression of glutamate receptors in wild finches.

Author

Audet JN, Kayello L, Ducatez S, Perillo S, Cauchard L, Howard JT, O'Connell LA, Jarvis ED, and Lefebvre L

Subjects

Animals, Brain metabolism, Gene Regulatory Networks, Neuronal Plasticity genetics, Phylogeny, Problem Solving, Prosencephalon cytology, Receptors, Glutamate metabolism, Species Specificity, Transcriptome genetics, Finches genetics, Gene Expression Regulation, Receptors, Glutamate genetics

Abstract

Problem solving and innovation are key components of intelligence. We compare wild-caught individuals from two species that are close relatives of Darwin's finches, the innovative Loxigilla barbadensis , and its most closely related species in Barbados, the conservative Tiaris bicolor . We found an all-or-none difference in the problem-solving capacity of the two species. Brain RNA sequencing analyses revealed interspecific differences in genes related to neuronal and synaptic plasticity in the intrapallial neural populations (mesopallium and nidopallium), especially in the nidopallium caudolaterale, a structure functionally analogous to the mammalian prefrontal cortex. At a finer scale, we discovered robust differences in glutamate receptor expression between the species. In particular, the GRIN2B/GRIN2A ratio, known to correlate with synaptic plasticity, was higher in the innovative L. barbadensis . These findings suggest that divergence in avian intelligence is associated with similar neuronal mechanisms to that of mammals, including humans.

Published

2018

59. Radiation of the polymorphic Little Devil poison frog ( Oophaga sylvatica ) in Ecuador.

Author

Roland AB, Santos JC, Carriker BC, Caty SN, Tapia EE, Coloma LA, and O'Connell LA

Abstract

Some South American poison frogs (Dendrobatidae) are chemically defended and use bright aposematic colors to warn potential predators of their unpalatability. Aposematic signals are often frequency-dependent where individuals deviating from a local model are at a higher risk of predation. However, extreme diversity in the aposematic signal has been documented in poison frogs, especially in Oophaga . Here, we explore the phylogeographic pattern among color-divergent populations of the Little Devil poison frog Oophaga sylvatica by analyzing population structure and genetic differentiation to evaluate which processes could account for color diversity within and among populations. With a combination of PCR amplicons (three mitochondrial and three nuclear markers) and genome-wide markers from a double-digested RAD (ddRAD) approach, we characterized the phylogenetic and genetic structure of 199 individuals from 13 populations (12 monomorphic and 1 polymorphic) across the O. sylvatica distribution. Individuals segregated into two main lineages by their northern or southern latitudinal distribution. A high level of genetic and phenotypic polymorphism within the northern lineage suggests ongoing gene flow. In contrast, low levels of genetic differentiation were detected among the southern lineage populations and support recent range expansions from populations in the northern lineage. We propose that a combination of climatic gradients and structured landscapes might be promoting gene flow and phylogenetic diversification. Alternatively, we cannot rule out that the observed phenotypic and genomic variations are the result of genetic drift on near or neutral alleles in a small number of genes.

Published

2017

60. Interacting amino acid replacements allow poison frogs to evolve epibatidine resistance.

Author

Tarvin RD, Borghese CM, Sachs W, Santos JC, Lu Y, O'Connell LA, Cannatella DC, Harris RA, and Zakon HH

Subjects

Acetylcholine chemistry, Acetylcholine pharmacology, Adaptation, Biological genetics, Animals, Binding Sites genetics, Bridged Bicyclo Compounds, Heterocyclic metabolism, Electrophysiological Phenomena, Evolution, Molecular, Humans, Mutation, Phylogeny, Protein Conformation, beta-Strand, Pyridines metabolism, Receptors, Nicotinic chemistry, Receptors, Nicotinic genetics, Acetylcholine metabolism, Amino Acid Substitution genetics, Anura genetics, Anura metabolism, Bridged Bicyclo Compounds, Heterocyclic toxicity, Drug Resistance genetics, Pyridines toxicity, Receptors, Nicotinic metabolism

Abstract

Animals that wield toxins face self-intoxication. Poison frogs have a diverse arsenal of defensive alkaloids that target the nervous system. Among them is epibatidine, a nicotinic acetylcholine receptor (nAChR) agonist that is lethal at microgram doses. Epibatidine shares a highly conserved binding site with acetylcholine, making it difficult to evolve resistance yet maintain nAChR function. Electrophysiological assays of human and frog nAChR revealed that one amino acid replacement, which evolved three times in poison frogs, decreased epibatidine sensitivity but at a cost of acetylcholine sensitivity. However, receptor functionality was rescued by additional amino acid replacements that differed among poison frog lineages. Our results demonstrate how resistance to agonist toxins can evolve and that such genetic changes propel organisms toward an adaptive peak of chemical defense., (Copyright © 2017 The Authors, some rights reserved; exclusive licensee American Association for the Advancement of Science. No claim to original U.S. Government Works.)

Published

2017

61. Orotracheal intubation in infants performed with a stylet versus without a stylet.

Author

O'Shea JE, O'Gorman J, Gupta A, Sinhal S, Foster JP, O'Connell LA, Kamlin COF, and Davis PG

Subjects

Gestational Age, Humans, Infant, Infant, Newborn, Infant, Premature, Intensive Care Units, Neonatal statistics & numerical data, Intubation, Intratracheal instrumentation, Intubation, Intratracheal statistics & numerical data, Pediatrics statistics & numerical data, Intubation, Intratracheal methods

Abstract

Background: Neonatal endotracheal intubation is a common and potentially life-saving intervention. It is a mandatory skill for neonatal trainees, but one that is difficult to master and maintain. Intubation opportunities for trainees are decreasing and success rates are subsequently falling. Use of a stylet may aid intubation and improve success. However, the potential for associated harm must be considered., Objectives: To compare the benefits and harms of neonatal orotracheal intubation with a stylet versus neonatal orotracheal intubation without a stylet., Search Methods: We searched the Cochrane Central Register of Controlled Trials (CENTRAL) in the Cochrane Library; MEDLINE; Embase; the Cumulative Index to Nursing and Allied Health Literature (CINAHL), and previous reviews. We also searched cross-references, contacted expert informants, handsearched journals, and looked at conference proceedings. We searched clinical trials registries for current and recently completed trials. We conducted our most recent search in April 2017., Selection Criteria: All randomised, quasi-randomised, and cluster-randomised controlled trials comparing use versus non-use of a stylet in neonatal orotracheal intubation., Data Collection and Analysis: Two review authors independently assessed results of searches against predetermined criteria for inclusion, assessed risk of bias, and extracted data. We used the standard methods of the Cochrane Collaboration, as documented in the Cochrane Handbook for Systemic Reviews of Interventions, and of the Cochrane Neonatal Review Group., Main Results: We included a single-centre non-blinded randomised controlled trial that reported a total of 302 intubation attempts in 232 infants. The median gestational age of enrolled infants was 29 weeks. Paediatric residents and fellows performed the intubations. We judged the study to be at low risk of bias overall. Investigators compared success rates of first-attempt intubation with and without use of a stylet and reported success rates as similar between stylet and no-stylet groups (57% and 53%) (P = 0.47). Success rates did not differ between groups in subgroup analyses by provider level of training and infant weight. Results showed no differences in secondary review outcomes, including duration of intubation, number of attempts, participant instability during the procedure, and local airway trauma. Only 25% of all intubations took less than 30 seconds to perform. Study authors did not report neonatal morbidity nor mortality. We considered the quality of evidence as low on GRADE analysis, given that we identified only one unblinded study., Authors' Conclusions: Current available evidence suggests that use of a stylet during neonatal orotracheal intubation does not significantly improve the success rate among paediatric trainees. However, only one brand of stylet and one brand of endotracheal tube have been tested, and researchers performed all intubations on infants in a hospital setting. Therefore, our results cannot be generalised beyond these limitations.

Published

2017

62. Modification of feeding circuits in the evolution of social behavior.

Author

Fischer EK and O'Connell LA

Subjects

Animals, Brain physiology, Nerve Net, Neural Pathways, Peptide Hormones metabolism, Appetitive Behavior, Biological Evolution, Feeding Behavior, Social Behavior

Abstract

Adaptive trade-offs between foraging and social behavior intuitively explain many aspects of individual decision-making. Given the intimate connection between social behavior and feeding/foraging at the behavioral level, we propose that social behaviors are linked to foraging on a mechanistic level, and that modifications of feeding circuits are crucial in the evolution of complex social behaviors. In this Review, we first highlight the overlap between mechanisms underlying foraging and parental care and then expand this argument to consider the manipulation of feeding-related pathways in the evolution of other complex social behaviors. We include examples from diverse taxa to highlight that the independent evolution of complex social behaviors is a variation on the theme of feeding circuit modification., (© 2017. Published by The Company of Biologists Ltd.)

Published

2017

63. Lenomyrmex hoelldobleri : a new ant species discovered in the stomach of the dendrobatid poison frog, Oophaga sylvatica (Funkhouser).

Author

Rabeling C, Sosa-Calvo J, O'Connell LA, Coloma LA, and Fernández F

Abstract

The ant genus Lenomyrmex was recently discovered and described from mid to high elevation rainforests in southern Central and northwestern South America. Lenomyrmex currently consists of six described species, which are only rarely collected. Here, we add a new species, Lenomyrmex hoelldobleri sp. n. , which was discovered in a stomach content sample of the dendrobatid frog, Oophaga sylvatica , from northwestern Ecuador. Lenomyrmex hoelldobleri can be distinguished from other species in the genus by the presence of a well-developed petiolar node, whereas in all other species the node of the petiole is ill-defined. In addition to the shape of the petiolar node, Lenomyrmex hoelldobleri can be distinguished from the morphologically similar Lenomyrmex costatus by (i) the presence of the metanotal suture, (ii) the direction of the striae on dorsum of propodeum (concentrically transverse in Lenomyrmex hoelldobleri , longitudinal in Lenomyrmex costatus ), (iii) the finely striate dorsum of postpetiole, (iv) its larger size, and (v) distinctly darker coloration. We also describe the gyne of Lenomyrmex foveolatus . This collection record from northwestern Ecuador extends the geographic distribution of Lenomyrmex foveolatus 400 km south from its previous record in Colombia. A revised taxonomic key to the workers and gynes of all described Lenomyrmex species is provided. We discuss the taxonomic relationship of Lenomyrmex hoelldobleri to other species in the genus and its biology based on the limited information that is currently available. Finally, we briefly discuss the feeding ecology of dendrobatid poison frogs in the context of providing a valuable source of rarely collected and cryptic new ant species.

Published

2016

64. Erratum to: Ant and Mite Diversity Drives Toxin Variation in the Little Devil Poison Frog.

Author

McGugan JR, Byrd GD, Roland AB, Caty SN, Kabir N, Tapia EE, Trauger SA, Coloma LA, and O'Connell LA

Published

2016

65. Response to Heethoff, Norton, and Raspotnig: Ant and Mite Diversity Drives Toxin Variation in the Little Devil Poison Frog and Erratum.

Author

McGugan JR, Byrd GD, Roland AB, Caty SN, Kabir N, Tapia EE, Trauger SA, Coloma LA, and O'Connell LA

Abstract

Our recent publication titled "Ant and Mite Diversity Drives Toxin Variation in the Little Devil Poison Frog" aimed to describe how variation in diet contributes to population differences in toxin profiles of poison frogs. Some poison frogs (Family Dendrobatidae) sequester alkaloid toxins from their arthropod diet, which is composed mainly of ants and mites. Our publication demonstrated that arthropods from the stomach contents of three different frog populations were diverse in both chemistry and species composition. To make progress towards understanding this trophic relationship, our main goal was to identify alkaloids that are found in either ants or mites. With the remaining samples that were not used for chemical analysis, we attempted to identify the arthropods using DNA barcoding of cytochrome oxidase 1 (CO1). The critique of Heethoff, Norton, and Raspotnig refers to the genetic analysis of a small number of mites. Here, we respond to the general argument of the critique as well as other minor issues detailed by Heethoff, Norton, and Raspotnig.

Published

2016

66. Ant and Mite Diversity Drives Toxin Variation in the Little Devil Poison Frog.

Author

McGugan JR, Byrd GD, Roland AB, Caty SN, Kabir N, Tapia EE, Trauger SA, Coloma LA, and O'Connell LA

Subjects

Alkaloids metabolism, Animals, Cyclooxygenase 1 genetics, Diet, Predatory Behavior, Ants classification, Ants genetics, Anura metabolism, Biodiversity, Mites classification, Mites genetics, Toxins, Biological metabolism

Abstract

Poison frogs sequester chemical defenses from arthropod prey, although the details of how arthropod diversity contributes to variation in poison frog toxins remains unclear. We characterized skin alkaloid profiles in the Little Devil poison frog, Oophaga sylvatica (Dendrobatidae), across three populations in northwestern Ecuador. Using gas chromatography/mass spectrometry, we identified histrionicotoxins, 3,5- and 5,8-disubstituted indolizidines, decahydroquinolines, and lehmizidines as the primary alkaloid toxins in these O. sylvatica populations. Frog skin alkaloid composition varied along a geographical gradient following population distribution in a principal component analysis. We also characterized diversity in arthropods isolated from frog stomach contents and confirmed that O. sylvatica specialize on ants and mites. To test the hypothesis that poison frog toxin variability reflects species and chemical diversity in arthropod prey, we (1) used sequencing of cytochrome oxidase 1 to identify individual prey specimens, and (2) used liquid chromatography/mass spectrometry to chemically profile consumed ants and mites. We identified 45 ants and 9 mites in frog stomachs, including several undescribed species. We also showed that chemical profiles of consumed ants and mites cluster by frog population, suggesting different frog populations have access to chemically distinct prey. Finally, by comparing chemical profiles of frog skin and isolated prey items, we traced the arthropod source of four poison frog alkaloids, including 3,5- and 5,8-disubstituted indolizidines and a lehmizidine alkaloid. Together, the data show that toxin variability in O. sylvatica reflects chemical diversity in arthropod prey.

Published

2016

67. Convergent Substitutions in a Sodium Channel Suggest Multiple Origins of Toxin Resistance in Poison Frogs.

Author

Tarvin RD, Santos JC, O'Connell LA, Zakon HH, and Cannatella DC

Subjects

Alkaloids chemistry, Alkaloids classification, Alkaloids metabolism, Amphibian Venoms chemistry, Amphibian Venoms genetics, Amphibian Venoms metabolism, Animals, Anura genetics, Batrachotoxins chemistry, Batrachotoxins genetics, Batrachotoxins metabolism, Binding Sites, Genetic Association Studies, Molecular Docking Simulation, NAV1.4 Voltage-Gated Sodium Channel chemistry, NAV1.4 Voltage-Gated Sodium Channel metabolism, Poisons metabolism, Quinolines chemistry, Quinolines metabolism, Skin chemistry, Skin drug effects, Alkaloids genetics, NAV1.4 Voltage-Gated Sodium Channel genetics, Phylogeny, Poisons chemistry

Abstract

Complex phenotypes typically have a correspondingly multifaceted genetic component. However, the genotype-phenotype association between chemical defense and resistance is often simple: genetic changes in the binding site of a toxin alter how it affects its target. Some toxic organisms, such as poison frogs (Anura: Dendrobatidae), have defensive alkaloids that disrupt the function of ion channels, proteins that are crucial for nerve and muscle activity. Using protein-docking models, we predict that three major classes of poison frog alkaloids (histrionicotoxins, pumiliotoxins, and batrachotoxins) bind to similar sites in the highly conserved inner pore of the muscle voltage-gated sodium channel, Nav1.4. We predict that poison frogs are somewhat resistant to these compounds because they have six types of amino acid replacements in the Nav1.4 inner pore that are absent in all other frogs except for a distantly related alkaloid-defended frog from Madagascar, Mantella aurantiaca. Protein-docking models and comparative phylogenetics support the role of these replacements in alkaloid resistance. Taking into account the four independent origins of chemical defense in Dendrobatidae, phylogenetic patterns of the amino acid replacements suggest that 1) alkaloid resistance in Nav1.4 evolved independently at least seven times in these frogs, 2) variation in resistance-conferring replacements is likely a result of differences in alkaloid exposure across species, and 3) functional constraint shapes the evolution of the Nav1.4 inner pore. Our study is the first to demonstrate the genetic basis of autoresistance in frogs with alkaloid defenses., (© The Author 2016. Published by Oxford University Press on behalf of the Society for Molecular Biology and Evolution. All rights reserved. For permissions, please e-mail: journals.permissions@oup.com.)

Published

2016

68. Optimization of next-generation sequencing transcriptome annotation for species lacking sequenced genomes.

Author

Ockendon NF, O'Connell LA, Bush SJ, Monzón-Sandoval J, Barnes H, Székely T, Hofmann HA, Dorus S, and Urrutia AO

Subjects

Animals, Primates genetics, Drosophila genetics, High-Throughput Nucleotide Sequencing, Molecular Sequence Annotation methods, Transcriptome

Abstract

Next-generation sequencing methods, such as RNA-seq, have permitted the exploration of gene expression in a range of organisms which have been studied in ecological contexts but lack a sequenced genome. However, the efficacy and accuracy of RNA-seq annotation methods using reference genomes from related species have yet to be robustly characterized. Here we conduct a comprehensive power analysis employing RNA-seq data from Drosophila melanogaster in conjunction with 11 additional genomes from related Drosophila species to compare annotation methods and quantify the impact of evolutionary divergence between transcriptome and the reference genome. Our analyses demonstrate that, regardless of the level of sequence divergence, direct genome mapping (DGM), where transcript short reads are aligned directly to the reference genome, significantly outperforms the widely used de novo and guided assembly-based methods in both the quantity and accuracy of gene detection. Our analysis also reveals that DGM recovers a more representative profile of Gene Ontology functional categories, which are often used to interpret emergent patterns in genomewide expression analyses. Lastly, analysis of available primate RNA-seq data demonstrates the applicability of our observations across diverse taxa. Our quantification of annotation accuracy and reduced gene detection associated with sequence divergence thus provides empirically derived guidelines for the design of future gene expression studies in species without sequenced genomes., (© 2015 The Authors. Molecular Ecology Resources published by John Wiley & Sons Ltd.)

Published

2016

69. Social odors conveying dominance and reproductive information induce rapid physiological and neuromolecular changes in a cichlid fish.

Author

Simões JM, Barata EN, Harris RM, O'Connell LA, Hofmann HA, and Oliveira RF

Subjects

Animals, Brain metabolism, Cichlids physiology, Gene Expression Regulation, Nerve Net, Social Environment, Behavior, Animal, Cichlids genetics, Genetic Fitness genetics, Odorants

Abstract

Background: Social plasticity is a pervasive feature of animal behavior. Animals adjust the expression of their social behavior to the daily changes in social life and to transitions between life-history stages, and this ability has an impact in their Darwinian fitness. This behavioral plasticity may be achieved either by rewiring or by biochemically switching nodes of the neural network underlying social behavior in response to perceived social information. Independent of the proximate mechanisms, at the neuromolecular level social plasticity relies on the regulation of gene expression, such that different neurogenomic states emerge in response to different social stimuli and the switches between states are orchestrated by signaling pathways that interface the social environment and the genotype. Here, we test this hypothesis by characterizing the changes in the brain profile of gene expression in response to social odors in the Mozambique Tilapia, Oreochromis mossambicus. This species has a rich repertoire of social behaviors during which both visual and chemical information are conveyed to conspecifics. Specifically, dominant males increase their urination frequency during agonist encounters and during courtship to convey chemical information reflecting their dominance status., Results: We recorded electro-olfactograms to test the extent to which the olfactory epithelium can discriminate between olfactory information from dominant and subordinate males as well as from pre- and post-spawning females. We then performed a genome-scale gene expression analysis of the olfactory bulb and the olfactory cortex homolog in order to identify the neuromolecular systems involved in processing these social stimuli., Conclusions: Our results show that different olfactory stimuli from conspecifics' have a major impact in the brain transcriptome, with different chemical social cues eliciting specific patterns of gene expression in the brain. These results confirm the role of rapid changes in gene expression in the brain as a genomic mechanism underlying behavioral plasticity and reinforce the idea of an extensive transcriptional plasticity of cichlid genomes, especially in response to rapid changes in their social environment.

Published

2015

70. Neural control of maternal and paternal behaviors.

Author

Dulac C, O'Connell LA, and Wu Z

Subjects

Aggression, Animals, Biological Evolution, Cues, Female, Humans, Male, Models, Neurological, Neural Pathways physiology, Neurons physiology, Brain physiology, Maternal Behavior physiology, Parenting, Paternal Behavior physiology, Sensation physiology

Abstract

Parental care, including feeding and protection of young, is essential for the survival as well as mental and physical well-being of the offspring. A large variety of parental behaviors has been described across species and sexes, raising fascinating questions about how animals identify the young and how brain circuits drive and modulate parental displays in males and females. Recent studies have begun to uncover a striking antagonistic interplay between brain systems underlying parental care and infant-directed aggression in both males and females, as well as a large range of intrinsic and environmentally driven neural modulation and plasticity. Improved understanding of the neural control of parental interactions in animals should provide novel insights into the complex issue of human parental care in both health and disease., (Copyright © 2014, American Association for the Advancement of Science.)

Published

2014

71. Evolutionary development of neural systems in vertebrates and beyond.

Author

O'Connell LA

Subjects

Animals, Humans, Nerve Net physiology, Vertebrates, Biological Evolution, Brain cytology, Brain embryology, Brain growth & development, Neurons physiology

Abstract

The emerging field of "neuro-evo-devo" is beginning to reveal how the molecular and neural substrates that underlie brain function are based on variations in evolutionarily ancient and conserved neurochemical and neural circuit themes. Comparative work across bilaterians is reviewed to highlight how early neural patterning specifies modularity of the embryonic brain, which lays a foundation on which manipulation of neurogenesis creates adjustments in brain size. Small variation within these developmental mechanisms contributes to the evolution of brain diversity. Comparing the specification and spatial distribution of neural phenotypes across bilaterians has also suggested some major brain evolution trends, although much more work on profiling neural connections with neurochemical specificity across a wide diversity of organisms is needed. These comparative approaches investigating the evolution of brain form and function hold great promise for facilitating a mechanistic understanding of how variation in brain morphology, neural phenotypes, and neural networks influences brain function and behavioral diversity across organisms.

Published

2013

72. Sex differences and similarities in the neuroendocrine regulation of social behavior in an African cichlid fish.

Author

O'Connell LA, Ding JH, and Hofmann HA

Subjects

Aggression, Animals, Brain metabolism, Courtship, Dominance-Subordination, Escape Reaction, Female, Gonadal Steroid Hormones blood, Male, Receptors, Cytoplasmic and Nuclear metabolism, Territoriality, Behavior, Animal physiology, Cichlids physiology, Neurosecretory Systems physiology, Sex Characteristics, Social Behavior

Abstract

An individual's position in a social hierarchy profoundly affects behavior and physiology through interactions with community members, yet little is known about how the brain contributes to status differences between and within the social states or sexes. We aimed to determine sex-specific attributes of social status by comparing circulating sex steroid hormones and neural gene expression of sex steroid receptors in dominant and subordinate male and female Astatotilapia burtoni, a highly social African cichlid fish. We found that testosterone and 17β-estradiol levels are higher in males regardless of status and dominant individuals regardless of sex. Progesterone was found to be higher in dominant individuals regardless of sex. Based on pharmacological manipulations in males and females, progesterone appears to be a common mechanism for promoting courtship in dominant individuals. We also examined expression of androgen receptors, estrogen receptor α, and the progesterone receptor in five brain regions that are important for social behavior. Most of the differences in brain sex steroid receptor expression were due to sex rather than status. Our results suggest that the parvocellular preoptic area is a core region for mediating sex differences through androgen and estrogen receptor expression, whereas the progesterone receptor may mediate sex and status behaviors in the putative homologs of the nucleus accumbens and ventromedial hypothalamus. Overall our results suggest sex differences and similarities in the regulation of social dominance by gonadal hormones and their receptors in the brain., (Copyright © 2013 Elsevier Inc. All rights reserved.)

Published

2013

73. Neuroendocrine mechanisms underlying sensory integration of social signals.

Author

O'Connell LA, Rigney MM, Dykstra DW, and Hofmann HA

Subjects

Animals, Female, Male, Behavior, Animal, Cichlids physiology, Neuroendocrine Cells physiology, Social Environment

Abstract

Individuals integrate information about their environment into adaptive behavioural responses, yet how different sensory modalities contribute to these decisions and where in the brain this integration occurs is not well understood. We presented male cichlid fish (Astatotilapia burtoni) with sensory information in three social contexts: intruder challenge, reproductive opportunity and a socially neutral situation. We then measured behavioural and hormonal responses along with induction of the immediate early gene c-Fos in candidate forebrain regions. In the intruder challenge context, males were exposed to either a visual stimulus of a dominant male, the putative male pheromone androstenedione, or both. We found that, compared to the neutral context, a visual stimulus was necessary and sufficient for an aggressive response, whereas both chemical and visual stimuli were needed for an androgen response. In the reproductive opportunity context, males were exposed to either a visual stimulus of a receptive female, a progesterone metabolite (female pheromone) only, or both. We further found that the visual stimulus is necessary and sufficient for an androgen response in the reproductive opportunity context. In the brain, we observed c-Fos induction in response to a visual challenge stimulus specifically in dopaminergic neurones of area Vc (the central region of the ventral telencephalon), a putative striatal homologue, whereas presentation of a chemical stimulus did not induce c-Fos induction in the intruder challenge context. Our results suggest that different sensory cues are processed in a social context-specific manner as part of adaptive decision-making processes., (© 2013 British Society for Neuroendocrinology.)

Published

2013

74. Aromatase regulates aggression in the African cichlid fish Astatotilapia burtoni.

Author

Huffman LS, O'Connell LA, and Hofmann HA

Subjects

Aggression drug effects, Animals, Aromatase genetics, Aromatase Inhibitors pharmacology, Brain drug effects, Brain enzymology, Dose-Response Relationship, Drug, Drug Delivery Systems, Estradiol blood, Fadrozole pharmacology, Gene Expression Regulation, Enzymologic drug effects, Male, Preoptic Area drug effects, Preoptic Area metabolism, Reproduction drug effects, Statistics, Nonparametric, Testosterone blood, Aggression physiology, Aromatase metabolism, Cichlids metabolism, Cichlids physiology, Hierarchy, Social

Abstract

The roles of estrogen and androgens in male social behavior are well studied, but little is known about how these hormones contribute to behavior in a social hierarchy. Here we test the role of aromatase, the enzyme that converts testosterone into estradiol, in mediating aggression and reproductive behavior in male Astatotilapia burtoni, an African cichlid fish that displays remarkable plasticity in social behavior. We first measured aromatase expression in subordinate and dominant males in brain regions that regulate social behavior and found that subordinate males have higher aromatase expression than dominant males in the magnocellular and gigantocellular regions of the preoptic area. Next, we functionally tested the role of aromatase in regulating behavior by intraperitoneally injecting dominant males with either saline or fadrozole (FAD), an aromatase inhibitor, and found that FAD treatment decreases aggressive, but not reproductive, behaviors compared to saline controls. To determine the underlying physiological and molecular consequences of FAD treatment, we measured estradiol and testosterone levels from plasma and brain aromatase expression in FAD and saline treated dominant males. We found that estradiol levels decreased and testosterone levels increased in response to FAD treatment. Moreover, FAD treated males had increased aromatase expression in the gigantocellular portion of the POA, possibly a compensatory response. Overall, our results suggest aromatase is a key enzyme that promotes aggression in A. burtoni males through actions in the preoptic area., (Copyright © 2013 Elsevier Inc. All rights reserved.)

Published

2013

75. A randomized trial of stylets for intubating newborn infants.

Author

Kamlin CO, O'Connell LA, Morley CJ, Dawson JA, Donath SM, O'Donnell CP, and Davis PG

Subjects

Delivery Rooms standards, Female, Humans, Infant, Newborn, Intensive Care Units, Neonatal standards, Internship and Residency standards, Male, Clinical Competence standards, Intubation, Intratracheal instrumentation, Intubation, Intratracheal methods

Abstract

Objective: Endotracheal intubation of newborn infants is a common and potentially lifesaving procedure but a skill that trainees find difficult. Despite widespread use, no data are available on whether the use of a stylet (introducer) improves success rates. We aimed to determine whether pediatric trainees were more successful at neonatal orotracheal intubation when a stylet was used., Methods: An unblinded randomized controlled trial conducted between July 2006 and January 2009 at a tertiary perinatal center, the Royal Women's Hospital, Melbourne, Australia. Eligible participants were newborn infants in the delivery room or NICU requiring endotracheal intubation for respiratory support. Infants were intubated by pediatric residents or fellows. Infants were randomized to have the procedure performed by using either an endotracheal tube alone or with a stylet. Successful intubation at the first attempt assessed by colorimetric detection of expired carbon dioxide was the primary outcome., Results: Three hundred two intubations were performed in 232 infants (residents performed 75%, fellows 25%). Intubation was successful in 57% of the stylet group and 53% of the no stylet group (P = .47); odds ratio 1.18 (95% confidence interval 0.75-1.86). There were no differences in the duration of attempts or in the rate of upper airway trauma between the 2 groups. These results were consistent across subgroups of infants based on birth weight, gestational age, and site of intubation (delivery room or NICU)., Conclusions: Using an endotracheal stylet did not significantly improve the success rate of pediatric trainees at neonatal orotracheal intubation.

Published

2013

76. Female preference for males depends on reproductive physiology in the African cichlid fish Astatotilapia burtoni.

Author

Kidd MR, O'Connell LA, Kidd CE, Chen CW, Fontenot MR, Williams SJ, and Hofmann HA

Subjects

Animals, Female, Gonadal Steroid Hormones metabolism, Male, Reproduction physiology, Cichlids metabolism, Cichlids physiology, Mating Preference, Animal physiology

Abstract

Mate choice is fundamental to sexual selection, yet little is known about underlying physiological mechanisms that influence female mating decisions. We investigated the endocrine underpinnings of female mate choice in the African cichlid Astatotilapia burtoni, a non-seasonal breeder. In addition to profiling behavioral and hormonal changes across the female reproductive cycle, we tested two hypotheses regarding possible factors influencing female mate choice. We first asked whether female mate choice is influenced by male visual and/or chemical cues. A. burtoni females were housed for one full reproductive cycle in the center of a dichotomous choice apparatus with a large (attractive) or small (unattractive) conspecific male on either side. Females associated mostly with small, less attractive males, but on the day of spawning reversed their preference to large, attractive males, with whom they mated almost exclusively, although this choice depended on the relative amount of androgens released into the water by small males. We next asked whether male behavior or androgen levels change in relation to the stimulus females' reproductive state. We found that stimulus male aggression decreased and reproductive displays increased as the day of spawning approached. Moreover male testosterone levels changed throughout the females' reproductive cycle, with larger males releasing more testosterone into the water than small males. Our data suggest that female association in a dichotomous choice assay is only indicative of the actual mate choice on the day of spawning. Furthermore, we show that male behavior and hormone levels are dependent on the reproductive state of conspecific females., (Copyright © 2012 Elsevier Inc. All rights reserved.)

Published

2013

77. Neurochemical profiling of dopaminergic neurons in the forebrain of a cichlid fish, Astatotilapia burtoni.

Author

O'Connell LA, Fontenot MR, and Hofmann HA

Subjects

Animals, Biological Evolution, Cichlids genetics, Dopaminergic Neurons cytology, Female, Immunohistochemistry, In Situ Hybridization, Male, Prosencephalon cytology, Reverse Transcriptase Polymerase Chain Reaction, Sequence Homology, Transcription Factors genetics, Transcriptome, Cichlids metabolism, Dopaminergic Neurons metabolism, Prosencephalon metabolism, Transcription Factors metabolism

Abstract

Across vertebrates, the mesolimbic reward system is a highly conserved neural network that serves to evaluate the salience of environmental stimuli, with dopamine as the neurotransmitter most relevant to its function. Although brain regions in the dopaminergic reward system have been well characterized in mammals, homologizing these brain areas with structures in teleosts has been controversial, especially for the mesencephalo-diencephalic dopaminergic cell populations. Here we examine the neurochemical profile of five dopaminergic cell groups (Vc, POA, PPr, TPp, pTn) in the model cichlid Astatotilapia burtoni to better understand putative homology relationships between teleosts and mammals. We characterized in the adult brain the expression patterns of three genes (etv5, nr4a2, and pitx3) that either specify dopaminergic cell fate or maintain dopaminergic cell populations. We then determined whether these genes are expressed in dopaminergic cells. We find many striking similarities in these gene expression profiles between dopaminergic cell populations in teleosts and their putative mammalian homologs. Our results suggest that many of these dopaminergic cell groups are indeed evolutionarily ancient and conserved across vertebrates., (Copyright © 2013 Elsevier B.V. All rights reserved.)

Published

2013

78. Androgens coordinate neurotransmitter-related gene expression in male whiptail lizards.

Author

O'Connell LA, Mitchell MM, Hofmann HA, and Crews D

Subjects

Animals, Hypothalamus metabolism, Lizards metabolism, Male, Nitric Oxide Synthase metabolism, Orchiectomy, Receptors, Dopamine metabolism, Receptors, N-Methyl-D-Aspartate metabolism, Sexual Behavior, Animal drug effects, Androgens pharmacology, Gene Expression Regulation drug effects, Lizards genetics, Nitric Oxide Synthase genetics, Receptors, Dopamine genetics, Receptors, N-Methyl-D-Aspartate genetics

Abstract

Sex steroid hormones coordinate neurotransmitter systems in the male brain to facilitate sexual behavior. Although neurotransmitter release in the male brain has been well documented, little is known about how androgens orchestrate changes in gene expression of neurotransmitter receptors. We used male whiptail lizards (Cnemidophorus inornatus) to investigate how androgens alter neurotransmitter-related gene expression in brain regions involved in social decision making. We focused on three neurotransmitter systems involved in male-typical sexual behavior, including the N-methyl-d-aspartate (NMDA) glutamate receptor, nitric oxide and dopamine receptors. Here, we show that in androgen-treated males, there are coordinated changes in neurotransmitter-related gene expression. In androgen-implanted castrates compared with blank-implanted castrates (control group), we found associated increases in neuronal nitric oxide synthase gene expression in the nucleus accumbens (NAcc), preoptic area and ventromedial hypothalamus, a decrease of NR1 gene expression (obligate subunit of NMDA receptors) in the medial amygdaloid area and NAcc and a decrease in D1 and D2 dopamine receptor gene expression in the NAcc. Our results support and expand the current model of androgen-mediated gene expression changes of neurotransmitter-related systems that facilitate sexual behavior in males. This also suggests that the proposed evolutionarily ancient reward system that reinforces sexual behavior in amniote vertebrates extends to reptiles., (© 2012 The Authors. Genes, Brain and Behavior © 2012 Blackwell Publishing Ltd and International Behavioural and Neural Genetics Society.)

Published

2012

79. Distribution of nonapeptide systems in the forebrain of an African cichlid fish, Astatotilapia burtoni.

Author

Huffman LS, O'Connell LA, Kenkel CD, Kline RJ, Khan IA, and Hofmann HA

Subjects

Animals, Chickens, Humans, Immunohistochemistry, In Situ Hybridization, Male, Mice, Neuronal Plasticity, Oxytocin immunology, Oxytocin metabolism, Phylogeny, Prosencephalon immunology, RNA, Messenger metabolism, Rabbits, Rats, Receptors, Oxytocin genetics, Receptors, Oxytocin immunology, Receptors, Vasopressin genetics, Receptors, Vasopressin immunology, Social Behavior, Vasotocin immunology, Cichlids metabolism, Oxytocin analogs & derivatives, Prosencephalon metabolism, Receptors, Oxytocin metabolism, Receptors, Vasopressin metabolism, Vasotocin metabolism

Abstract

Nonapeptides and their receptors have important functions in mediating social behavior across vertebrates. Where these nonapeptides are synthesized in the brain has been studied extensively in most vertebrate lineages, yet we know relatively little about the neural distribution of nonapeptide receptors outside of mammals. As nonapeptides play influential roles in behavioral regulation in all vertebrates, including teleost fish, we mapped the distributions of the receptors for arginine vasotocin (AVT; homolog of arginine vasopressin) and isotocin (IST; homolog of oxytocin/mesotocin) throughout the forebrain of Astatotilapia burtoni, an African cichlid fish with behavioral phenotypes that are plastic and reversible based on the immediate social environment. We characterized the distribution of the AVT V1a2 receptor (V1aR) and the IST receptor (ITR) using both immunohistochemistry for protein detection and in situ hybridization for mRNA detection, as well as AVT and IST using immunohistochemistry. Expression of the neuropeptide receptors was widely distributed throughout the fore- and midbrain, including the proposed teleost homologs of the mammalian amygdala complex, striatum, hypothalamus, and ventral tegmental area. We conclude that although the location of nonapeptide synthesis is restricted compared to tetrapod vertebrates, the distribution of nonapeptide receptors is highly conserved across taxa. Our results significantly extend our knowledge of where nonapeptides act in the brains of teleosts to mediate social transitions and behavior., (Copyright © 2012 Elsevier B.V. All rights reserved.)

Published

2012

80. Evolution of a vertebrate social decision-making network.

Author

O'Connell LA and Hofmann HA

Subjects

Animals, Brain Mapping, Dopamine metabolism, Gene Expression Profiling, Gene Regulatory Networks, Ligands, Nerve Net physiology, Neural Pathways physiology, Neuropeptides genetics, Neuropeptides metabolism, Neurosecretory Systems metabolism, Phylogeny, Receptors, Neuropeptide genetics, Receptors, Neuropeptide metabolism, Receptors, Steroid genetics, Receptors, Steroid metabolism, Selection, Genetic, Biological Evolution, Brain metabolism, Decision Making, Social Behavior, Vertebrates genetics, Vertebrates metabolism

Abstract

Animals evaluate and respond to their social environment with adaptive decisions. Revealing the neural mechanisms of such decisions is a major goal in biology. We analyzed expression profiles for 10 neurochemical genes across 12 brain regions important for decision-making in 88 species representing five vertebrate lineages. We found that behaviorally relevant brain regions are remarkably conserved over 450 million years of evolution. We also find evidence that different brain regions have experienced different selection pressures, because spatial distribution of neuroendocrine ligands are more flexible than their receptors across vertebrates. Our analysis suggests that the diversity of social behavior in vertebrates can be explained, in part, by variations on a theme of conserved neural and gene expression networks.

Published

2012

81. Isotocin regulates paternal care in a monogamous cichlid fish.

Author

O'Connell LA, Matthews BJ, and Hofmann HA

Subjects

Aggression drug effects, Aggression physiology, Androgens metabolism, Animals, Brain metabolism, Brain physiology, Female, Male, Mating Preference, Animal physiology, Nesting Behavior physiology, Oxytocics pharmacology, Oxytocin pharmacology, Oxytocin physiology, Pair Bond, Paternal Behavior physiology, Cichlids physiology, Oxytocin analogs & derivatives, Paternal Behavior drug effects

Abstract

While the survival value of paternal care is well understood, little is known about its physiological basis. Here we investigate the neuroendocrine contributions to paternal care in the monogamous cichlid, Amatitlania nigrofasciata. We first explored the dynamic range of paternal care in three experimental groups: biparental males (control fathers housed with their mate), single fathers (mate removed), or lone males (mate and offspring removed). We found that control males gradually increase paternal care over time, whereas single fathers increased care immediately after mate removal. Males with offspring present had lower levels of circulating 11-ketotestosterone (11-KT) yet still maintained aggressive displays toward brood predators. To determine what brain regions may contribute to paternal care, we quantified induction of the immediate early gene c-Fos, and found that single fathers have more c-Fos induction in the forebrain area Vv (putative lateral septum homologue), but not in the central pallium (area Dc). While overall preoptic area c-Fos induction was similar between groups, we found that parvocellular preoptic isotocin (IST) neurons in single fathers showed increased c-Fos induction, suggesting IST may facilitate the increase of paternal care after mate removal. To functionally test the role of IST in regulating paternal care, we treated biparental males with an IST receptor antagonist, which blocked paternal care. Our results indicate that isotocin plays a significant role in promoting paternal care, and more broadly suggest that the convergent evolution of paternal care across vertebrates may have recruited similar neuroendocrine mechanisms., (Copyright © 2012 Elsevier Inc. All rights reserved.)

Published

2012

82. Rising StARs: behavioral, hormonal, and molecular responses to social challenge and opportunity.

Author

Huffman LS, Mitchell MM, O'Connell LA, and Hofmann HA

Subjects

Aggression physiology, Animals, Aromatase metabolism, Brain physiology, Cloning, Molecular, Estradiol metabolism, Female, Gene Expression physiology, Luteinizing Hormone metabolism, Male, Molecular Sequence Data, RNA, Messenger biosynthesis, RNA, Messenger genetics, Receptors, LH physiology, Reproduction physiology, Sexual Behavior, Animal physiology, Steroids biosynthesis, Steroids blood, Testis anatomy & histology, Testis metabolism, Testosterone metabolism, Behavior, Animal physiology, Cichlids physiology, Hormones blood, Phosphoproteins physiology, Social Environment

Abstract

Across taxa, individuals must respond to a dynamic social environment of challenges and opportunities on multiple biological levels, including behavior, hormone profiles, and gene expression. We investigated the response to a complex social environment including both territorial challenges and reproductive opportunities in the African cichlid fish Astatotilapia burtoni (Burton's mouthbrooder), a species well-known for its phenotypic plasticity. Male A. burtoni are either socially dominant or subordinate and can transition between the two phenotypes. We used this transition to simultaneously study changes in aggression, reproductive behavior, testosterone and estradiol levels, gonadal histology, and testes expression of three genes involved in testosterone synthesis. We have found that males immediately become aggressive and increase testosterone levels when they become dominant in this paradigm of challenge and opportunity. Reproductive behavior and estradiol increase slightly later but are also up-regulated within 24h. Increases in steroid hormone levels are accompanied by an increase in expression of steroidogenic acute regulatory protein (StAR), the rate-limiting enzyme during testosterone synthesis, as well as an increase in testis maturation as measured by histological organization. Reproductive behavior was found to correlate with female gravidity, suggesting that males were able to perceive reproductive opportunity. Our study demonstrates the rapid plasticity at multiple levels of biological organization that animals can display in response to changes in their complex social environment., (Copyright © 2012 Elsevier Inc. All rights reserved.)

Published

2012

83. Social status predicts how sex steroid receptors regulate complex behavior across levels of biological organization.

Author

O'Connell LA and Hofmann HA

Subjects

Animals, Behavior, Animal, Brain embryology, Brain metabolism, Estrogens metabolism, Female, Male, Models, Biological, Preoptic Area, Receptors, Estrogen antagonists & inhibitors, Sexual Behavior, Animal, Social Behavior, Tilapia, Transcriptome, Gene Expression Regulation, Receptors, Steroid metabolism

Abstract

Social status strongly affects behavior and physiology, in part mediated by gonadal hormones, although how each sex steroid acts across levels of biological organization is not well understood. We examine the role of sex steroids in modulating social behavior in dominant (DOM) and subordinate (SUB) males of a highly social fish, Astatotilapia burtoni. We first used agonists and antagonists to each sex steroid receptor and found that androgens and progestins modulate courtship behavior only in DOM, whereas estrogens modulate aggressive behavior independent of social status. We then examined the hormonal and physiological responses to sex steroid receptor antagonist treatment and uncovered substantial changes in circulating steroid hormone levels and gonad size only in SUB, not in DOM. Consistent with status-based physiological sensitivities to drug manipulation, we found that neuropeptide and steroid receptor gene expression in the preoptic area was sensitive only in SUB. However, when we compared the transcriptomes of males that received either vehicle or an estrogen receptor antagonist, 8.25% of all genes examined changed expression in DOM in comparison with only 0.56% in SUB. Finally, we integrate behavior, physiology, and brain gene expression to infer functional modules that underlie steroid receptor regulation of behavior. Our work suggests that environmentally induced changes at one level of biological organization do not simply affect changes of similar magnitude at other levels, but that instead very few key pathways likely serve as conduits for executing plastic responses across multiple levels.

Published

2012

84. Enteral feeding practices in very preterm infants: an international survey.

Author

Klingenberg C, Embleton ND, Jacobs SE, O'Connell LA, and Kuschel CA

Subjects

Birth Weight, Enteral Nutrition statistics & numerical data, Gestational Age, Health Care Surveys, Humans, Infant, Newborn, Infant, Premature, Infant, Very Low Birth Weight, Intensive Care Units, Neonatal statistics & numerical data, Intensive Care, Neonatal statistics & numerical data, Milk Banks supply & distribution, Milk, Human, Enteral Nutrition methods, Infant Nutritional Physiological Phenomena physiology, Intensive Care, Neonatal methods

Abstract

Objective: To evaluate enteral feeding practices in neonatal units in different countries and on different continents., Design: A web-based survey of 127 tertiary neonatal intensive care units in Australia, Canada, Denmark, Ireland, New Zealand, Norway, Sweden and the UK., Results: 124 units (98%) responded. 59 units (48%) had a breast milk bank or access to donor human milk (Australia/New Zealand 2/27, Canada 6/29, Scandinavia 20/20 and UK/Ireland 31/48). The proportion of units initiating enteral feeding within the first 24 h of life was: 43/124 (35%) if gestational age (GA) <25 weeks, 53/124 (43%) if GA 25-27 weeks and 88/124 (71%) if GA 28-31 weeks. In general, Scandinavian units introduced enteral feeds the earliest, followed by UK/Ireland. Continuous feeding was routinely used for infants below 28 weeks' gestation in almost half of the Scandinavian units and in approximately one sixth of units in UK/Ireland, but rarely in Australia/New Zealand and Canada. Minimal enteral feeding for 4-5 days was common in Canada, but rare in Scandinavia. Target enteral feeding volume in a 'stable' preterm infant was 140-160 ml/kg/day in most Canadian units and 161-180 ml/kg/day or higher in units in the other regions. There were also marked regional differences in criteria for use and timing when human milk fortifier was added., Conclusions: This study highlights areas of uncertainty and demonstrates marked variability in feeding practices. It provides valuable data for planning collaborative feeding trials to optimise outcome in preterm infants.

Published

2012

85. The vertebrate mesolimbic reward system and social behavior network: a comparative synthesis.

Author

O'Connell LA and Hofmann HA

Subjects

Adaptation, Psychological physiology, Animals, Biological Evolution, Limbic System cytology, Neural Pathways cytology, Species Specificity, Vertebrates, Dopaminergic Neurons physiology, Limbic System physiology, Neural Pathways physiology, Reward, Social Behavior

Abstract

All animals evaluate the salience of external stimuli and integrate them with internal physiological information into adaptive behavior. Natural and sexual selection impinge on these processes, yet our understanding of behavioral decision-making mechanisms and their evolution is still very limited. Insights from mammals indicate that two neural circuits are of crucial importance in this context: the social behavior network and the mesolimbic reward system. Here we review evidence from neurochemical, tract-tracing, developmental, and functional lesion/stimulation studies that delineates homology relationships for most of the nodes of these two circuits across the five major vertebrate lineages: mammals, birds, reptiles, amphibians, and teleost fish. We provide for the first time a comprehensive comparative analysis of the two neural circuits and conclude that they were already present in early vertebrates. We also propose that these circuits form a larger social decision-making (SDM) network that regulates adaptive behavior. Our synthesis thus provides an important foundation for understanding the evolution of the neural mechanisms underlying reward processing and behavioral regulation., (Copyright © 2011 Wiley-Liss, Inc.)

Published

2011

86. The distribution of an AVT V1a receptor in the brain of a sex changing fish, Epinephelus adscensionis.

Author

Kline RJ, O'Connell LA, Hofmann HA, Holt GJ, and Khan IA

Subjects

Amino Acid Sequence, Animals, Blotting, Western, Female, Immunohistochemistry, In Situ Hybridization, Male, Molecular Sequence Data, RNA, Messenger analysis, Receptors, Vasopressin genetics, Bass metabolism, Brain metabolism, Hermaphroditic Organisms physiology, Receptors, Vasopressin biosynthesis

Abstract

The present study describes the distribution of an arginine vasotocin (AVT) V1a receptor (AVTr) throughout the brain of a sex-changing grouper, rock hind Epinephelus adscensionis. The objectives of this study were to describe the AVTr distribution in the brain of rock hind for potential linkages of the AVT hormone system with sex-specific behaviors observed in this species and to examine sex-specific differences that might exist. An antibody was designed for rock hind AVTr against the deduced amino acid sequence for the third intracellular loop. Protein expression, identified with immunohistochemistry showed high concordance with mRNA expression, identified with in situ hybridization. AVTr protein and mRNA expression was widely distributed throughout the brain, indicating that AVT may act as a neuromodulator via this V1a receptor subtype. AVTr protein and mRNA were present in regions associated with behavior, reproduction and spatial learning, as well as sensory functions such as vision, olfaction and lateral line sensory processing. We observed high AVTr expression in granular cell formations in the internal cellular layer of olfactory bulbs, torus longitudinalis, granular layer of the corpus cerebellum, valvula of the cerebellum, nuclei of the lateral and posterior recesses, and granular eminence. High protein and mRNA expression was also observed in the preoptic area, anterior hypothalamus, and habenular nucleus. No obvious sex differences were noted in any region of the rock hind brain., (Copyright © 2011 Elsevier B.V. All rights reserved.)

Published

2011

87. Genes, hormones, and circuits: an integrative approach to study the evolution of social behavior.

Author

O'Connell LA and Hofmann HA

Subjects

Animals, Avoidance Learning, Decision Making, Humans, Nerve Net anatomy & histology, Reward, Biological Evolution, Hormones metabolism, Nerve Net physiology, Social Behavior

Abstract

Tremendous progress has been made in our understanding of the ultimate and proximate mechanisms underlying social behavior, yet an integrative evolutionary analysis of its underpinnings has been difficult. In this review, we propose that modern genomic approaches can facilitate such studies by integrating four approaches to brain and behavior studies: (1) animals face many challenges and opportunities that are ecologically and socially equivalent across species; (2) they respond with species-specific, yet quantifiable and comparable approach and avoidance behaviors; (3) these behaviors in turn are regulated by gene modules and neurochemical codes; and (4) these behaviors are governed by brain circuits such as the mesolimbic reward system and the social behavior network. For each approach, we discuss genomic and other studies that have shed light on various aspects of social behavior and its underpinnings and suggest promising avenues for future research into the evolution of neuroethological systems., (Copyright © 2010 Elsevier Inc. All rights reserved.)

Published

2011

88. Neural distribution of the nuclear progesterone receptor in the túngara frog, Physalaemus pustulosus.

Author

O'Connell LA, Ding JH, Ryan MJ, and Hofmann HA

Subjects

Animals, Anura physiology, Female, Immunohistochemistry, Models, Animal, Tissue Distribution physiology, Tyrosine 3-Monooxygenase immunology, Brain anatomy & histology, Brain metabolism, Brain Mapping, Progesterone metabolism, Receptors, Progesterone analysis, Receptors, Progesterone immunology, Tyrosine 3-Monooxygenase analysis

Abstract

The gonadal steroid hormone progesterone plays an important role across all vertebrates in mediating female reproductive physiology and behavior. Many effects of progesterone are mediated by a nuclear progesterone receptor (PR), which is crucial for integration of external signals and internal physiological cues in the brain to produce an appropriate behavioral output. The túngara frog, Physalaemus pustulosus, is an excellent model system for the study of mechanisms by which sensory signals, such as auditory communication, are processed within neural circuits where mate choice decisions are made. To establish a framework for studying the neural basis of mate choice and social behavior in this species, we first describe the cytoarchitecture of the brain using Nissl-stained sections. Then, in order to better understand where progesterone acts to regulate social decisions, we determined the distribution of PR protein throughout the brain of P. pustulosus by immunohistochemistry. We found PR immunoreactivity in key brain regions known to modulate the processing of auditory cues and social behavior in other vertebrates. Due to its widespread distribution, PR likely also plays important roles in non-limbic brain regions that mediate non-social information processing. Further, we have colocalized PR with tyrosine hydroxylase, providing a functional context for the role of progesterone in mediating motivation and motor behavior. Our results significantly extend our understanding of hormonal modulation in the anuran brain and support the important role of the nuclear progesterone receptor in modulating female mate choice and receptivity in amphibians and across vertebrates., (Copyright © 2011 Elsevier B.V. All rights reserved.)

Published

2011

89. Molecular characterization and brain distribution of the progesterone receptor in whiptail lizards.

Author

O'Connell LA, Matthews BJ, Patel SB, O'Connell JD, and Crews D

Subjects

Animals, Female, Immunohistochemistry, In Situ Hybridization, Lizards genetics, Male, Phylogeny, Protein Structure, Secondary, Receptors, Progesterone chemistry, Receptors, Progesterone genetics, Brain metabolism, Lizards metabolism, Receptors, Progesterone metabolism

Abstract

Progesterone and its nuclear receptor are critical in modulating reproductive physiology and behavior in female and male vertebrates. Whiptail lizards (genus Cnemidophorus) are an excellent model system in which to study the evolution of sexual behavior, as both the ancestral and descendent species exist. Male-typical sexual behavior is mediated by progesterone in both the ancestral species and the descendant all-female species, although the molecular characterization and distribution of the progesterone receptor protein throughout the reptilian brain is not well understood. To better understand the gene targets and ligand binding properties of the progesterone receptor in whiptails, we cloned the promoter and coding sequence of the progesterone receptor and analyzed the predicted protein structure. We next determined the distribution of the progesterone receptor protein and mRNA throughout the brain of Cnemidophorus inornatus and Cnemidophorus uniparens by immunohistochemistry and in situ hybridization. We found the progesterone receptor to be present in many brain regions known to regulate social behavior and processing of stimulus salience across many vertebrates, including the ventral tegmental area, amygdala, nucleus accumbens and several hypothalamic nuclei. Additionally, we quantified immunoreactive cells in the preoptic area and ventromedial hypothalamus in females of both species and males of the ancestral species. We found differences between both species and across ovarian states. Our results significantly extend our understanding of progesterone modulation in the reptilian brain and support the important role of the nuclear progesterone receptor in modulating sexual behavior in reptiles and across vertebrates., (Copyright © 2011 Elsevier Inc. All rights reserved.)

Published

2011

90. Neuronal nitric oxide synthase as a substrate for the evolution of pseudosexual behaviour in a parthenogenetic whiptail lizard.

Author

O'Connell LA, Matthews BJ, and Crews D

Subjects

Animals, Cloning, Molecular, Estrous Cycle genetics, Estrous Cycle metabolism, Estrous Cycle physiology, Female, Gender Identity, Lizards genetics, Lizards metabolism, Male, Models, Biological, Nitric Oxide Synthase Type I metabolism, Nitric Oxide Synthase Type I physiology, Ovary metabolism, Parthenogenesis physiology, Receptors, Progesterone genetics, Receptors, Progesterone metabolism, Sex Characteristics, Tissue Distribution, Biological Evolution, Lizards physiology, Nitric Oxide Synthase Type I genetics, Parthenogenesis genetics, Sexual Behavior, Animal physiology

Abstract

The evolution of neuroendocrine mechanisms governing sex-typical behaviour is poorly understood. An outstanding animal model is the whiptail lizard (Cnemidophorus) because both the ancestral and descendent species still exist. The ancestral little striped whiptail, Cnemidophorus inornatus, consists of males and females, which exhibit sex-specific mating behaviours. The descendent desert grassland whiptail, Cnemidophorus uniparens, consists only of females that alternately exhibit both female-like and male-like pseudosexual behaviour. Castrated male C. inornatus will mount a conspecific in response to exogenous androgen, although some are also sensitive to progesterone. This polymorphism in progesterone sensitivity in the ancestral species may have been involved in evolution of progesterone-mediated male-typical behaviour in the descendant unisexual lizards. We tested whether progesterone activates a typically androgenic signalling pathway by investigating hormonal regulation of neuronal nitric oxide synthase (nNOS) using in situ hybridisation and NADPH diaphorase histochemistry, a stain for nNOS protein. NADPH diaphorase is widely distributed throughout the brain of both species, although only in the periventricular nucleus of the preoptic area (pvPOA) are there differences between mounting and non-mounting individuals. The number of cells expressing nNOS mRNA and NADPH diaphorase is higher in the pvPOA of individuals that mount in response to progesterone or androgen. Furthermore, the nNOS promoter has both androgen and progesterone response elements, and NADPH diaphorase colocalises with the progesterone receptor in the pvPOA. These data suggest that a polymorphism in progesterone sensitivity in the sexual ancestor reflects a differential regulation of nNOS and may account for the male-typical behaviour in unisexual whiptail lizards., (© 2011 The Authors. Journal of Neuroendocrinology © 2011 Blackwell Publishing Ltd.)

Published

2011

91. Characterization of the dopaminergic system in the brain of an African cichlid fish, Astatotilapia burtoni.

Author

O'Connell LA, Fontenot MR, and Hofmann HA

Subjects

Animals, Blotting, Western, Brain metabolism, Dopamine metabolism, Immunohistochemistry, In Situ Hybridization, Neural Pathways metabolism, Receptors, Dopamine D1 analysis, Receptors, Dopamine D2 analysis, Brain cytology, Cichlids anatomy & histology, Cichlids metabolism, Neural Pathways cytology

Abstract

Catecholamines, such as dopamine, are evolutionarily ancient neurotransmitters that play an essential role in mediating behavior. In vertebrates, dopamine is central to the nigrostriatal motor and mesolimbic reward systems. Despite its importance, the distribution of the dopaminergic system has not been well studied in the teleost brain. The African cichlid fish Astatotilapia burtoni has become an important model system in social neuroscience and lends itself to uncovering how social decisions are implemented in the brain. To understand better where dopamine acts to regulate social behavior in this species, we have determined the distribution of putative dopaminergic cells and fibers (by tyrosine hydroxylase immunohistochemistry) and dopamine receptors (by in situ hybridization for the D(1A) and D(2) dopamine receptor subtypes) throughout the forebrain and part of the mesencephalon of A. burtoni. Tyrosine hydroxylase immunoreactivity was evident in several regions of the fore- and midbrain, in support of putative homologies to tetrapods. Additionally, the D(1A) and D(2) receptors were identified in brain regions known to modulate social behavior in other vertebrates, including the proposed teleost homologues of the mammalian amygdalar complex, hippocampus, striatum, preoptic area, anterior hypothalamus, ventromedial hypothalamus, and ventral tegmental area/substantia nigra pars compacta. Tyrosine hydroxylase-immunoreactive fibers as well as D(1A) and D(2) receptor expression overlap almost completely in their distribution. These results significantly extend our understanding of the distribution of the dopaminergic system in the teleost brain and suggest a conserved role of dopamine in modulating behavior across vertebrates.

Published

2011

92. Characterization of the dopamine system in the brain of the túngara frog, Physalaemus pustulosus.

Author

O'Connell LA, Matthews BJ, Ryan MJ, and Hofmann HA

Subjects

Animals, Brain anatomy & histology, Female, Immunohistochemistry, Neural Pathways anatomy & histology, Neural Pathways metabolism, Neuroanatomical Tract-Tracing Techniques, Tissue Distribution, Tyrosine 3-Monooxygenase metabolism, Anura physiology, Brain metabolism, Brain Mapping, Dopamine metabolism, Dopamine and cAMP-Regulated Phosphoprotein 32 metabolism

Abstract

Dopamine is an evolutionarily ancient neurotransmitter that plays an essential role in mediating behavior. In vertebrates, dopamine is central to the mesolimbic reward system, a neural network concerned with the valuation of stimulus salience, and to the nigrostriatal motor system and hypothalamic nuclei involved in the regulation of locomotion and social behavior. In amphibians, dopaminergic neurons have been mapped out in several species, yet the distribution of dopaminoreceptive cells is unknown. The túngara frog, Physalaemus pustulosus, is an excellent model system for the study of neural mechanisms by which valuations of stimuli salience and social decisions are made, especially in the context of mate choice. In order to better understand where dopamine acts to regulate social decisions in this species, we have determined the distribution of putative dopaminergic cells (using tyrosine hydroxylase immunohistochemistry) and cells receptive to dopaminergic signaling (using DARPP-32 immunohistochemistry) throughout the brain of P. pustulosus. The distribution of dopaminergic cells was comparable to other anurans. DARPP-32 immunoreactivity was identified in key brain regions known to modulate social behavior in other vertebrates including the proposed anuran homologues of the mammalian amygdalar complex, nucleus accumbens, hippocampus, striatum, preoptic area, anterior hypothalamus, ventromedial hypothalamus, and ventral tegmental area/substantia nigra pars compacta. Due to its widespread distribution, DARPP-32 likely also plays many roles in non-limbic brain regions that mediate non-social information processing. These results significantly extend our understanding of the distribution of the dopaminergic system in the anuran brain and beyond., (Copyright © 2010 S. Karger AG, Basel.)

Published

2010

93. Group B streptococcal disease in UK and Irish infants younger than 90 days.

Author

Heath PT, Balfour G, Weisner AM, Efstratiou A, Lamagni TL, Tighe H, O'Connell LA, Cafferkey M, Verlander NQ, Nicoll A, and McCartney AC

Subjects

Female, Humans, Incidence, Infant, Infant, Newborn, Infectious Disease Transmission, Vertical, Ireland epidemiology, Pregnancy, Pregnancy Complications epidemiology, Pregnancy Complications, Infectious epidemiology, Pregnancy Complications, Infectious microbiology, Risk Factors, Streptococcal Infections microbiology, United Kingdom epidemiology, Streptococcal Infections epidemiology, Streptococcus agalactiae isolation & purification

Abstract

The incidence, morbidity, and mortality of group B streptococcal disease in the UK and Republic of Ireland are largely unknown. Between Feb 1, 2000, and Feb 28, 2001, we identified cases of invasive group B streptococcal disease in infants younger than 90 days through surveillance involving paediatricians, microbiologists, and parents. 568 cases were identified, equivalent to a total incidence of 0.72 per 1000 live-births (95% CI 0.66-0.78); the incidence for early-onset disease (n=377) was 0.48 per 1000 (0.43-0.53), and for late-onset disease (n=191) was 0.24 per 1000 (0.21-0.28). Risk factors were identifiable for 218 (58%) cases of early-onset disease. 53 infants died (overall 9.7%). We have established the minimum current burden of group B streptococcal disease in UK and Irish infants. This information will assist in the formulation of guidelines for prevention of this disease.

Published

2004