Cellular mechanisms of inhibition in sound localization circuits

Curry, Rebecca J., Curry

31 July 2017

No description available.

Neurosciences

Neurobiology

Cellular Biology

sound localization

auditory neuroscience

interaural level difference

slice physiology

dorsal nucleus of the lateral lemniscus

medial nucleus of the trapezoid body

GABA

glycine

metabotropic glutamate receptor

Fragile X Syndrome

Coming full circle: the development, rise, fall, and return of the concept of anticipation in hereditary disease

Friedman, Judith Ellen

26 October 2009

This dissertation examines the history of the creation and development of the concept of anticipation, a pattern of heredity found in several diseases (e.g. Huntington’s disease and myotonic dystrophy), in which an illness manifests itself earlier and often more severely in successive generations. It reconstructs major arguments in twentieth-century debates about anticipation and analyzes the relations between different research communities and schools of thought. Developments in cutting-edge medicine, biology, and genetics are analyzed; many of these developments were centered in Britain, but saw significant contributions by people working in France, Germany, Switzerland, the Netherlands and North America. Chapter one traces precursor notions in psychiatric and hereditarian thought from 1840 to the coining of the term ‘anticipation’ by the ophthalmologist Edward Nettleship in 1905. Key roles in the following chapters are played by several figures. Prior to World War II, these include: the neuropathologist F.W. Mott, whose advocacy during 1911- 1927 led to anticipation being called “Mott’s law”; the biometrician and eugenicist Karl Pearson, who opposed Mott on methodological and political grounds; and two politically and theoretically opposed Germans – Ernst Rüdin, a leading psychiatrist and eugenicist who came to reject anticipation, and Richard Goldschmidt, a geneticist who offered a peculiar Mendelian explanation. The British psychiatrist and human geneticist, Lionel Penrose, makes a first interwar appearance, but becomes crucial to the story after World War II due to his systematic dismissal of anticipation, which discredited the notion on orthodox Mendelian grounds. The final chapters highlight the contributions of Dutch neurologist Christiaan Höweler, whose 1980s work demonstrated a major hole in Penrose’s reasoning, and British geneticist Peter Harper, whose research helped demonstrate that expanding trinucleotide repeats accounted for the transgenerational worsening without contradicting Mendel and resurrected anticipation as scientifically legitimate. Reception of the concept of anticipation is traced across the century through the examination of textbooks used in different fields. This dissertation argues against established positions regarding the history of the concept, including claims that anticipation’s association with eugenics adequately explains the rejection of the notion after 1945. Rejected, in fact, by many eugenicists from 1912, anticipation was used by physicians until the 1960s.

Eugenics

Medicine

Genetics

trinucleotide repeat disorders

Heredity

Biology

Genetic Anticipation

myotonic dystrophy

Huntington's disease

Fragile X

schizophrenia

Psychiatry

trinucleotide repeat expansion disorders

expanding trinucleotide repeats

Étude des réseaux neuronaux et des mécanismes cognitifs impliqués dans les déficiences intellectuelles liées au chromosome X / Study of neuronal networks and cognitive mecanisms involved in X linked intellectual disability

Curie, Aurore

08 April 2011

Grâce aux progrès de la génétique moléculaire qui ont permis d’identifier de nouveaux gènes de déficience intellectuelle liée à l’X, il nous a été possible de travailler sur des groupes homogènes de malades présentant une mutation dans le même gène. Nous avons d’une part, pu mettre en évidence un dysfonctionnement du circuit cérébello-thalamo-préfrontal grâce à une étude en IRM morphométrique réalisée chez des patients ayant une mutation dans le gène Rab-GDI. D’autre part, nous avons identifié un phénotype tout à fait spécifique lié aux mutations du gène ARX, tant clinique que neuropsychologique, et cinématique, associant une atteinte très particulière de la motricité distale des membres supérieurs et du langage. La préhension des patients est pathognomonique, avec une préférence pour la pince pouce-majeur, une difficulté accrue pour l’utilisation du bord cubital de la main, et un trouble de la pronosupination. Sur le plan neuroanatomique, il existe une diminution de volume des noyaux gris centraux et des épaisseurs corticales des régions contrôlant la motricité, bien corrélées au paramètres de cinématique. Enfin, nous avons exploré les stratégies de raisonnement des patients déficients intellectuels atteints du syndrome de l’X fragile, d’une mutation du gène ARX ou de trisomie 21 en élaborant un paradigme de raisonnement visuel analogique issu des matrices de Raven. Nous en avons établi la trajectoire développementale. Les stratégies utilisées par les patients (étude en eyetracking) sont différentes de celles des contrôles y compris de même âge mental, avec un défaut d’inhibition majeur, encore plus franc chez les patients X fragiles que ceux porteurs de trisomie 21 / Thanks to progress in molecular genetics, that allowed identification of new genes responsible for X linked intellectual disability, we studied on homogeneous groups of patients presenting with a mutation in one or the other gene. In the first section, we showed dysfunction of cerebello-thalamo-prefrontal networks, thanks to morphological MRI study performed on patients with a mutation in the Rab-GDI gene. In the second section, we highlighted a very specific phenotype related to ARX gene mutations, clinically, neuropsychologically, and kinematically, with a very peculiar impairment of upper limbs distal motricity, and language disorder. Patients hand-grip is pathognomonic, with a preference for the middle finger instead of the index for the grip of object, major impairment of fourth finger use, and lack of pronation movements. Neuroimaging study showed decreased volume of basal ganglia, and cortical thickness of motor regions, well correlated to kinematic parameters. In the third section, we explored reasoning strategies in three groups of patients with intellectual deficiency: fragile X, ARX mutated and Down syndrome patients and controls (both chronological and mental age-matched subjects). We notably elaborated a visual analogical reasoning paradigm, inspired from Raven’s matrices. We established a developmental trajectory of this paradigm. The strategy used by patients (eyetracking study) was different from the one used by controls, with a huge lack of inhibition, even greater for fragile X patients than for Down syndrome patients

Gène ARX

Gène Rab-GDI

Syndrome de l’X fragile

Trisomie 21

Étude cinématique

X-linked Intellectual Deficiency

ARX gene

Rab-GDI gene

Fragile X syndrome

Down syndrome

Kinematic study

Visual analogical reasoning paradigm

616.8

Betaine analogues and related compounds for biomedical applications

Vasudevamurthy, Madhusudan

January 2006

Living cells accumulate compensatory solutes for protection against the harmful effects of extreme environmental conditions such as high salinity, temperature and desiccation. Even at high concentrations these solutes do not disrupt the normal cellular functions and at times counteract by stabilizing the cellular components. These properties of compensatory solutes have been exploited for stabilizing proteins and cells in vitro. Betaines are widespread natural compensatory solutes that have also been used in other applications such as therapeutic agents and polymerase chain reaction (PCR) enhancers. Some biomedical applications of novel synthetic analogues of natural betaines were investigated. Natural compensatory solutes are either dipolar zwitterionic compounds or polyhydroxyl compounds, and the physical basis of compensation may differ between these, so one focus was on synthetic betaines with hydroxyl substituents. The majority of the synthetic solutes stabilized different model proteins against stress factors such as high and low temperatures. The presence of hydroxyl groups improved protection against desiccation. The observed stabilization effect is not just on the catalytic activity of the enzyme, but also on its structural conformation. Synthetic compensatory solutes have a potential application as protein stabilizers. Dimethylthetin was evaluated as a therapeutic agent and found to be harmful in a sheep model. However, from the study we were able to generate a large-animal continuous ambulatory peritoneal dialysis (CAPD) model and showed that glycine betaine could be added to the dialysis fluid in chronic renal failure. Some synthetic compensatory solutes reduce the melting temperatures of DNA better than most natural solutes. Synthetic solutes were identified that have potential to enhance PCR and could replace some reagents marketed by commercial suppliers. Density, viscosity and molecular model data on the solutes showed correlations with the biochemical effects of the solutes, but no physical measurements were found that reliably predicted their potential for biotechnological applications.

Betaine analogues

synthetic compensatory solutes

compatible solutes

protein stabilization

enzyme stabilization

heat denaturation

freeze-thawing

freeze-drying

protein fluorescence

protein conformation

dimethylthetin

peritoneal dialysis

sheep model

renal failure

homocysteine

DNA melting temperature

PCR enhancers

fragile X PCR

apparent hydration number

dipole mement

polarizability

mulliken charges

biotechnological applications

Compréhension intégrée de quatre syndromes génétiques impliqués dans la déficience intellectuelle via des biomarqueurs électrophysiologiques, les manifestations comportementales, le fonctionnement adaptatif et les interventions disponibles sur le plan clinique.

Côté, Valérie

05 1900

La trisomie 21 (T21), le Syndrome X Fragile (SXF), la Sclérose tubéreuse de Bourneville (STB) et les mutations SYNGAP1 sont causés par des dysfonctionnements des voies moléculaires qui entraînent notamment un déséquilibre dans l’excitation et l’inhibition de l’activité neuronale qui aurait des impacts sur le développement et le fonctionnement du cerveau. Toutefois, il est difficile de faire le pont entre les déséquilibres moléculaires observés dans les modèles animaux et les particularités structurelles, fonctionnelles et cognitives observées dans ces syndromes chez l’humain. À notre connaissance, peu d’études ont comparé différents syndromes génétiques sur les processus sensoriels, l’apprentissage de base ou encore leurs caractéristiques comportementales en utilisant des paradigmes similaires et translationnels, permettant de mieux comprendre leurs particularités. Le premier volet de cette thèse vise à identifier si l’activité électroencéphalographique serait un biomarqueur adéquat représentant les altérations neurobiologiques tant des processus sensoriels que d’apprentissage chez les humains présentant ces syndromes. L’étude #1 avait comme objectif de décrire le traitement sensoriel auditif, comme il s’agit d’un processus élémentaire, et ce, chez les mutations SYNGAP1 qui représentent une condition génétique encore peu étudiée chez l’humain. Les résultats ont d’ailleurs permis d’identifier une diminution de la synchronisation de phase et une augmentation de la puissance dans la bande gamma qui distinguent cette condition génétique tant des participants sans DI que de la T21. Toujours dans l’esprit d’identifier des biomarqueurs électroencéphalographiques, mais cette fois au niveau d’un processus cognitif de base, l’étude #2 avait pour objectif de comparer tous ces syndromes dans un paradigme de suppression neuronale (SN) afin de vérifier la présence de SN et de comparer l’apprentissage de base chez ces populations. Les résultats ont identifiés que la T21 et le SXF présentaient tous les deux un patron de SN et que le SXF présentait relativement une plus forte habituation indiquant des particularités spécifiques selon les syndromes. Le deuxième volet, davantage clinique, permet de comparer les profils comportementaux associés au fonctionnement adaptatif entre les syndromes et à décrire les pistes d’intervention existantes. L’étude #3 a notamment mis en évidence que le QI et les symptômes de TDAH sont associés au fonctionnement adaptatif auprès de ces différents syndromes dont le SXF et la STB. Cet article a aussi permis de décrire les profils comportementaux de ces mêmes conditions en révélant davantage de difficultés rapportées chez les individus présentant un SXF, alors que la T21 présentait moins de particularités cliniques au niveau comportemental. Enfin, l’article #4 a mis en lumière diverses interventions utilisées auprès de la population présentant une DI notamment des stratégies cognitivo-comportementales et compensatoires. Cette thèse permet donc de dresser un portrait spécifique de ces syndromes génétiques concernant leur signature électrophysiologique lors du traitement sensoriel et de l’apprentissage ainsi que sur le plan des comorbidités comportementales et de leur relation avec le fonctionnement adaptatif, pour ensuite aborder les interventions actuelles en DI. Les diverses particularités identifiées à plusieurs niveaux ont permis de générer des suggestions pouvant guider certaines interventions futures. / Down syndrome (DS), Fragile X syndrome (FXS), Tuberous sclerosis complex (TSC) and SYNGAP1 mutations are caused by dysfunctions of the molecular pathways which lead among others to an imbalance in excitation and inhibition of the neuronal activity that would impact the brain development and its functioning. However, it is difficult to directly bridge the gap between the molecular imbalances observed in animal models with the structural, functional and cognitive characteristics observed in human with these syndromes. To our knowledge, few studies have compared those different genetic syndromes on sensory processing, basic learning or on their behavioural issues using similar and translational paradigms then allowing a better understanding of their specificities. The first part of this thesis aims to identify whether electroencephalographic activity would be an adequate biomarker representing neurobiological alterations both in sensory processing and learning in humans with these syndromes. The goal of study #1 was to describe auditory sensory processing, as a very first basic process, in SYNGAP1 mutations being a genetic condition still little studied in humans. Results showed a decrease in phase synchronization and an increase in the power of gamma band which distinguish this genetic condition both from participants without ID and from DS. Still in order to identify electroencephalographic biomarkers, but this time at a basic cognitive level, study #2 aimed to compare all these syndromes in a repetition suppression (RS) paradigm in order to observe the presence of RS and compare basic learning in these populations. The results identified a RS pattern in both DS and FXS. FXS also exhibited relatively higher habituation then indicating specific features according to the syndrome. The second part, addressing clinical aspects, permits to compare the behavioural profiles associated with adaptive functioning between syndromes and to describe existing interventions on ID population. Study #3 notably highlighted that IQ and ADHD symptoms are associated with adaptive functioning especially in FXS and TSC. This article also made it possible to describe the behavioural profiles of these syndromes, revealing more difficulties reported in individuals with FXS, while DS presented fewer behavioural issues. Finally, article #4 highlighted various interventions used with ID population, notably cognitive-behavioural and compensatory strategies. This thesis therefore makes it possible to gain a better understanding of these genetic syndromes concerning their electrophysiological signature during sensory processing and learning as well as in terms of behavioural comorbidities and their relationship with adaptive functioning, to then address current ID interventions. These different syndromic particularities identified at several levels made it possible to generate suggestions that could guide future interventions in this field.

Syndrome X Fragile

Sclérose tubéreuse de Bourneville.

mutations SYNGAP1

trisomie 21

déficience intellectuelle

électrophysiologie

traitement sensoriel auditif

fonctionnement adaptatif

suppression neuronale

interventions

Fragile X syndrome

Tuberous sclerosis complex

SYNGAP1 mutations

Down syndrome

Intellectual disability

Electrophysiology

Auditory sensory processing

Adaptive functioning

Repetition suppression and interventions