Behavioral and histological inflammatory analysis of a single, mild traumatic brain injury and repeated subconcussive brain injury using a rodent model.

Clay, Anna Marie

09 August 2022

Subconcussive (SC) impacts have become a growing concern within the neuroscience community regarding the immediate and long-lasting effects of sports-related injuries. While a single low-level impact, i.e., a subconcussion, may not cause cerebral perturbations, it has been increasingly recognized that repeated SC exposure can induce deleterious effects. Therefore, determining the lower limits of systematic perturbation resulting from multiple SC impacts is of critical importance in expanding our understanding of cerebral vulnerability and recovery. Currently, there is a lack of correlation between a mild traumatic brain injury (mTBI) and repeated SC impacts with respect to injury biomechanics. Moreover, the cumulative threshold for repetitive low-level impacts is currently undefined. Thus, this research was designed to determine the pathophysiological differences between a single impact of an mTBI and repeated SC impacts with a subdivided cumulative kinetic energy of the single mTBI impact. In order to address this gap in knowledge, the present investigation employed a surgery-free, closed-head, weight drop injury device capable of producing repeatable, head impacts within a rat model. General locomotion and anxiety-like behavior were assessed using an Open Field Test and motor coordination dysfunction was measured using the rotarod assay. Neuroinflammation was measured using immunohistochemical assessment of astrogliosis (GFAP) and microgliosis (Iba-1) within the hippocampus. Additionally, immunohistochemical assessment of neuronal loss (NeuN) was measured within the hippocampus. To investigate the tolerance and the persistence of cerebral vulnerability following a single mTBI and repeated subconcussive impacts, measurement outcomes were assessed over two-time points (3- and 7-days) post final impact. Although injury groups were not statistically different from their associated sham groups with respect to behavioral outcomes; on average, RSC injury rats displayed a significant increase in anxious-like behavior after 7-days of recovery compared to the single mTBI group. From an inflammatory perspective, both mTBI and RSC injury groups led to extensive microgliosis in the gray matter following 3-days post-impact. Overall, this work’s findings do not provide evidence in support of the notion that repeated subconcussive impacts do result in behavioral disturbances and neuroinflammation, that do not manifest following a single mTBI of the same energy input.

Behavioral Outcome

Histological Inflammatory Analysis

Mild Traumatic Brain Injury

Repeat Subconcussive Injury

Rodent Model

Weight Drop Injury

Behavioral Neurobiology

Effort-Related Motivational Dysfunctions: Behavioral and Neurochemical Studies of the Wistar-Kyoto Rat Model of Depression

Abbott, Brendan

09 July 2018

Depression and related disorders are characterized by motivational dysfunctions, including deficits in behavioral activation and exertion of effort. Animal models of relevance to depression represent a critical starting point in elucidating the neurobiological mechanisms underlying motivational dysfunctions. The present study explored the use of the Wistar-Kyoto (WKY) animal model of depression to examine effort-related functions as measured by voluntary wheel running and performance on a mixed fixed ratio 5/progressive ratio (FR5/PR) operant task. Given the known link between activational aspects of motivation and the mesocorticolimbic dopamine (DA) system, the behavioral effects of d-amphetamine (0.5 and 1.0 mg/kg, IP), a psychostimulant that increases DA release, were evaluated in WKY and control Sprague-Dawley (SD) male and female rats responding on a mixed FR5/PR task. An additional experiment assessed intracellular content of monoamine neurotransmitters and their metabolites in relevant mesocorticolimbic brain regions, including the medial prefrontal cortex, the nucleus accumbens and the ventrolateral striatum using HPLC-ED. WKY rats demonstrated initial effort-related deficits in FR5/PR responding compared to SD controls, which ameliorated with training. Amphetamine significantly decreased FR5 work output, but increased responding on the PR phase in both SD and WKY rats. This effect was more pronounced in SD rats compare to WKY rats. In addition, sex differences were evident both in FR5/PR performance and in the behavioral response to amphetamine treatment. Moreover, females demonstrated higher levels of voluntary wheel-running than males. Finally, tissue concentrations of dopamine were lower in the NA and VLS of WKY compared to SD rats. Taken together, results suggest dysfunctions in mesolimbic DA neurotransmission in the WKY strain, likely underlying the depressive phenotype. The present study represents an important initial step in validating the WKY strain as a rat model of effort-related dysfunctions relevant to depression and other neuropsychiatric disorders.

depression

dopamine

effort

motivation

serotonin

rodent

Behavioral Neurobiology

Biological Psychology

Cognitive Neuroscience

Molecular and Cellular Neuroscience

Other Neuroscience and Neurobiology

Other Psychology

Pharmacology

Systems Neuroscience

Hepatectomy-Induced Alterations in Hepatic Perfusion and Function: Toward Multi-Scale Computational Modeling for a Better Prediction of Post-hepatectomy Liver Function

Christ, Bruno, Collatz, Maximilian, Dahmen, Uta, Herrmann, Karl-Heinz, Höpfl, Sebastian, König, Matthias, Lambers, Lena, Marz, Manja, Meyer, Daria, Radde, Nicole, Reichenbach, Jürgen R., Ricken, Tim, Tautenhahn, Hans-Michael

31 January 2024

Liver resection causes marked perfusion alterations in the liver remnant both on the organ scale (vascular anatomy) and on the microscale (sinusoidal blood flow on tissue level). These changes in perfusion affect hepatic functions via direct alterations in blood supply and drainage, followed by indirect changes of biomechanical tissue properties and cellular function. Changes in blood flow impose compression, tension and shear forces on the liver tissue. These forces are perceived by mechanosensors on parenchymal and non-parenchymal cells of the liver and regulate cell-cell and cell-matrix interactions as well as cellular signaling and metabolism. These interactions are key players in tissue growth and remodeling, a prerequisite to restore tissue function after PHx. Their dysregulation is associated with metabolic impairment of the liver eventually leading to liver failure, a serious post-hepatectomy complication with high morbidity and mortality. Though certain links are known, the overall functional change after liver surgery is not understood due to complex feedback loops, non-linearities, spatial heterogeneities and different time-scales of events. Computational modeling is a unique approach to gain a better understanding of complex biomedical systems. This approach allows (i) integration of heterogeneous data and knowledge on multiple scales into a consistent view of how perfusion is related to hepatic function; (ii) testing and generating hypotheses based on predictive models, which must be validated experimentally and clinically. In the long term, computational modeling will (iii) support surgical planning by predicting surgery-induced perfusion perturbations and their functional (metabolic) consequences; and thereby (iv) allow minimizing surgical risks for the individual patient. Here, we review the alterations of hepatic perfusion, biomechanical properties and function associated with hepatectomy. Specifically, we provide an overview over the clinical problem, preoperative diagnostics, functional imaging approaches, experimental approaches in animal models, mechanoperception in the liver and impact on cellular metabolism, omics approaches with a focus on transcriptomics, data integration and uncertainty analysis, and computational modeling on multiple scales. Finally, we provide a perspective on how multi-scale computational models, which couple perfusion changes to hepatic function, could become part of clinical workflows to predict and optimize patient outcome after complex liver surgery.

info:eu-repo/classification/ddc/610

ddc:610

The Effect of Scalp Tissue on Current Shunting during Anodal transcranial DirectCurrent Stimulation (tDCS)

Jackson, Mark Patrick

January 2015

No description available.

Biomedical Research

Experiments

Histology

Molecular Biology

Neurobiology

Neurosciences

Physiology

Psychobiology

The Effects of Lavender and Peppermint Essential Oils on Anxiety-Like Behaviors in Rodents

Beakas, Jenna Ashley

January 2021

No description available.

Behavioral Psychology

Alternative Medicine

Comparative

Mental Health

Psychology

Therapy

Cellular mechanisms involved in the recapitulation of endocrine development in the duct ligated pancreas

Tchokonte-Nana, Venant

03 1900

Thesis (PhD)--University of Stellenbosch, 2011. / ENGLISH ABSTRACT: Diabetes mellitus is amongst the leading causes of morbidity and mortality in the world, affecting young, adult and old people. Beta cell replacement therapy for insulin delivery remains the ultimate remedy for diabetes. However, insufficient donor pancreas and the use of immunosuppressive drugs prevent the wide-spread of this therapy. Other avenues of self generated beta cells within the organ itself need to be explored. Therefore, understanding the chronobiology of cellular mechanisms in the lineage of beta cell induced neogenesis is a valuable tool in improving beta cell replacement in patients with diabetes. The aim of this study was to induce recapitulation of the morpho-genetic sequence of endocrine cells development in the pancreas of rats after the pancreatic duct ligation (PDL) procedure. Serial sections of PDL tissues of the pancreas were obtained from 78 Sprague- Dawley rats and were assessed morphologically. The immunofluorescent tissues were statistically analysed using a computerized morphometry technique. The protein expression indices of Caspase3, Insulin, Pdx1, Ngn3, NeuroD and Pax6 were quantified. The efficiency levels of coexpression of these homeodomain proteins separately with insulin were defined by the ratio of the mean value of insulin expression to the mean value of their respective protein expression. The morphological changes were characterized by the appearance of granulated acinar cells at 6 hours post-PDL and the proliferation of endocrine tissues from 84 hours through to 120 hours. The morpho-immunofluorescent evaluation showed the highest immunoreactivity of Caspase3 and Pdx1 at 6 hours, Ngn3 at 36 hours, Pax6 and insulin at 84 hours while NeuroD expression was at 120 hours. The immunohistofluorescent analysis showed that caspase3 and Pdx1 were the first to be expressed at 6 hours while the insulin and NeuroD expression appeared later at 84 hours and 120 hours, respectively. However, Pax6 expression was continuous across time periods post-PDL, while Ngn3 expression showed a peak at 36 hours. The efficiency (highest and earliest expression) of co-expression of all these homeodomain proteins with insulin was restricted between 12 hours and 24 hours. The optimal efficiency was at 12 hours by Ngn3 with insulin. A good efficiency was shown for Pdx1 with insulin, NeuroD with insulin and Pax6 with insulin at 12 hours and 24 hours, respectively. A low efficiency was observed for insulin and caspase3 co-expression at 24 hours. This study suggests that for transplantation, PDL tissues harvested at an early time post-PDL (between 12 and 24 hours) could yield a higher success rate; the study also provides evidence for a connection between morphological changes in the PDL pancreas and the protein synthesis necessary for the lineage of endocrine cell development. / AFRIKAANSE OPSOMMING: Diabetes Mellitus resorteer onder die vernaamste oorsake van morbiditeit en mortaliteit wêreldwyd, en tuister jongmense, volwassenes en bejaardes. Daar bestaan egter ‘n wêreldwye tekort aan skenkerorgane met immuun-onderdrukingsterapie as ondersteuningsbehandeling. Beta-sel vervangingsterapie, vir die voorsiening van insulien, bly daarom die voorkeur behandeling vir die siekte wat noodsaak dat die wetenskap kyk na alternatiewe behandelingsregimens wat meganismes rondom orgaanregenerasie insluit. Begrip van die chronobiologie van die sellulêre meganismes betrokke rondom beta-sel ontwikkeling mag waardevolle lig werp op die neogenese van beta-selle wat gevolglik daartoe mag lei dat beta-sel vervanging as ‘n moontlike behandelingsterapie oorweeg mag word vir pasiënte met suikersiekte. Die oogmerk van hierdie studie is om die rekapitulasie van die morfo-genetiese volgorde van die endokriene pankreas na afbinding van die pankreasbuis te bepaal. Pankreasbuis afbinding is op 78 Sprague-Dawley laboratorium rotte onder algemene narkose uitgevoer, die pankreas is na voorafbepaalde tydsvakke verwyder en in histologiese seriesnitte gesny. Snitte is immunositochemiese gekleur en morfometries assesseer. Die afskeidingsindeks vir selboodskappers vir Caspase3, Insulien, Pdx1, Ngn3, NeuroD en Pax6 is kwantifiseer. Die gelyktydige afskeiding van elk van bogenoemde boodskappers tesame met insulien is omskryf as ‘n verhouding tot mekaar en in terme van dié van insulien. Die morfologiese verandering in die weefsel bespeur is gekenmerk deur die verskyn van gegranuleerde asinêre selle ses (6) ure na buisafbinding en die proliferasie van endokriene weefsel vanaf vier-en-tagtig (84) ure deurlopend tot een-honderd-en-twintig (120) ure. Die morfo-immunofluoresserende evaluering toon dat Caspase3 en Pdx1 by 6 uur die hoogste is, die van Ngn3 by 36 ure, Pax6 en insulien by 84 ure en NeuroD by 120 ure. Verder toon die analise dat Caspase3 en Pdx1 rondom 6 ure hul verskyning gemaak het terwyl dié van insulien en NeuroD eers rondom 84 tot 120 uur verskyn het. Die verskyning van Pax6 het deurlopend regoor al die tydsduurtes verskyn en Ngn3 het rondom 36 uur sy hoogste vlak bereik. Die gelyktydige uitdrukking van homeodomein proteïene tesame met insulien het slegs tussen die tydperke van 12 en 24 ure plaasgevind. Die uitdrukking van Pdx1 met insulien, NeuroD met insulien en Pax6 met insulien het almal tussen 12 en 24 ure plaasgevind. Caspase3 tesame met insulien is slegs by die 24 uur tydsperiode bespeur. Vir die oorplant van pankreas weefsel wat aan buisafbinding onderwerp is suggereer hierdie studie dat die geskikste tyd vir die oes van endokriene weefsel liewer vroeër (12 to 24 ure) as later uitgevoer behoort te word. Verder wil dit voorkom of hierdie tydsperiode ook die hoogste seltelling lewer. Die studie lewer waardevolle inligting oor die verwantskap tussen die morfologiese veranderings wat na buisafbinding plaasvind en die proteïen sintese wat sel-opvolgontwikkeling bevorder.

Human pancreas

Rodent pancreas

Pancreas duct ligation procedure – PDL

Theses -- Anatomy

Theses -- Histology

Dissertations -- Anatomy

Dissertations -- Histology

Endocrine cell development

Acute inactivation of the contralesional hemisphere for longer durations improves recovery after cortical injury

Khoshkrood Mansoori, Babak

09 1900

Au cours des dernières années, des méthodes non-invasives de stimulations permettant de moduler l’excitabilité des neurones suivant des lésions du système nerveux central ont été développées. Ces méthodes sont maintenant couramment utilisées pour étudier l’effet de l’inhibition du cortex contralésionnel sur la récupération motrice à la suite d’un accident vasculocérébral (AVC). Bien que plusieurs de ces études rapportent des résultats prometteurs, les paramètres permettant une récupération optimale demeurent encore inconnus. Chez les patients victimes d'un AVC, il est difficile de débuter les traitements rapidement et d'initier l’inhibition dans les heures suivant la lésion. L'impact de ce délai est toujours inconnu. De plus, aucune étude n’a jusqu’à maintenant évalué l’effet de la durée de l’inhibition sur la récupération du membre parétique. Dans le laboratoire du Dr Numa Dancause, nous avons utilisé un modèle bien établi de lésion ischémique chez le rat pour explorer ces questions. Nos objectifs étaient d’évaluer 1) si une inactivation de l’hémisphère contralésionnel initiée dans les heures qui suivent la lésion peut favoriser la récupération et 2) l’effet de la durée de l’inactivation sur la récupération du membre parétique. Suite à une lésion dans le cortex moteur induite par injections d’un vasoconstricteur, nous avons inactivé l’hémisphère contralésionnel à l’aide d’une pompe osmotique assurant l’infusion continue d’un agoniste du GABA (Muscimol). Dans différents groupes expérimentaux, nous avons inactivé l’hémisphère contralésionnel pour une durée de 3, 7 et 14 jours suivant la lésion. Dans un autre groupe, le Muscimol a été infusé pour 14 jours mais à un débit moindre de façon à pouvoir étudier le lien entre la fonction du membre non-parétique et la récupération du membre parétique. Les données comportementales de ces groupes ont été comparées à celles d’animaux ayant récupéré de façon spontanée d'une lésion similaire. Nos résultats indiquent que l’augmentation de la durée de l’inactivation (de 3 à 14 jours) accélère la récupération du membre parétique. De plus, les deux groupes ayant reçu une inactivation d'une durée de 14 jours ont montré une plus grande récupération fonctionnelle que le groupe n’ayant pas reçu d’inactivation de l’hémisphère contralésionnel, le groupe contrôle. Nos résultats suggèrent donc que l’inactivation de l’hémisphère contralésionnel initiée dans les heures suivant la lésion favorise la récupération du membre parétique. La durée d’inhibition la plus efficace (14 jours) dans notre modèle animal est beaucoup plus longues que celles utilisées jusqu’à maintenant chez l’homme. Bien qu’il soit difficile d’extrapoler la durée idéale à utiliser chez les patients à partir de nos données, nos résultats suggèrent que des traitements de plus longue durée pourraient être bénéfiques. Finalement, un message clair ressort de nos études sur la récupération fonctionnelle après un AVC: dans le développement de traitements basés sur l’inhibition de l’hémisphère contralésionnel, la durée de l’inactivation est un facteur clef à considérer. / With the introduction of non-invasive brain stimulation methods aimed at modulating the excitability of cortical areas after stroke, many groups are intensively investigating the effects of inhibition of the contralesional hemisphere on functional recovery. Although the reported results of these studies are very promising, limitations of enrolling acute stroke patients as well as technical difficult of establishing continuous inhibition protocols have left several open ended questions regarding the treatment parameters and patient selection. For example, the efficacy of inhibition treatment in acute setting after stroke and the effect of treatment duration are two questions that are virtually unexplored. Therefore, in the laboratory of Prof. Numa Dancause, we took advantage of a well established rodent model of cortical ischemic lesion to gain direct and objective insight about the importance of contralesional inactivation on motor recovery of the paretic limb. Using an Endothelin-1 rodent model of ischemic cortical lesion, we pharmacologically inactivated the contralesional hemisphere with a GABA agonist (Muscimol). By doing so we were interested in the effect of early treatment when contralesional inactivation is initiated rapidly after the lesion. Early after induction of cortical ischemic lesion, the contralesional hemisphere was inactivated with continuous infusion of the Muscimol for 3, 7 or 14 days in three different groups of animals. In a fourth group, Muscimol was infused at slower rate for 14 days to provide additional insights on the relation between the effects of inactivation on the non-paretic forelimb behavior and the recovery of the paretic forelimb. We included a group of animals with spontaneous recovery that received no inactivation after lesion. Our results indicated that increasing inactivation duration (from 3 to 14 days) accelerated the recovery of grasping function. Both groups with 14 days of inactivation had similar recovery profiles and performed better than animals that spontaneously recovered. In fact, the duration of inactivation, not the intensity, correlated with the better functional outcomes. Our results support early contralesional inactivation to improve recovery of the paretic forelimb after cortical lesion. Moreover, based on our results, the duration of inactivation is the most important factor to correlate with the functional outcomes. Therefore, by providing precise temporal and behavioral evidence, our results provide a window of opportunity for the researchers in which the current gap in our understanding of the clinical efficacy of contralesional inhibition in acute phase after stroke can be approached with more confidence.

Accident vasculocérébral

AVC

Avant-bras

Contralésionnel

Cortex

Inhibition

Inactivation

Lésion

Main

Rat

Récupération motrice

Contralesional

Forelimb

Hand

Cortical lesion

Stroke

Recovery

Rodent

Endothelin1

Muscimol

Approche multifactorielle de la dégénérescence parkinsonienne / Modelling multi-factorial neurodegeneration in Parkinson’s disease

Bourdenx, Mathieu

11 December 2015

Mon projet de thèse a porté sur les mécanismes neurodégénératifs dans le contexte de la maladie de Parkinson (MP). Cette maladie est caractérisée notamment par la présence d’inclusions intracytoplasmiques appelées corps de Lewy, dont le composant protéique principal est l’α-synucléine. L’absence de traitements curatifs à ce jour renforce la nécessité de comprendre les processus neurodégénératifs. L’objectif de mon travail de thèse fut de proposer une approche multifactorielle, translationnelle, basée sur trois axes complémentaires: modélisation, thérapeutique et mécanistique. Premièrement, nous nous sommes intéressés à la modélisation de la MP par l’utilisation de vecteurs viraux. Cette première partie nous a permis de conclure que le vieillissement ne constitue pas un facteur de risque pour les trois espèces étudiées. Ensuite, nous avons étudié deux stratégies pour combattre la dysfonction lysosomale existant chez les patients, premièrement par une approche biotechnologique avec des nanoparticules permettant de restaurer le pH des lysosomes dysfonctionnels, et une stratégie de thérapie génique par surexpression d’un régulateur de la biogénèse lysosomale. Grâce à ce travail, nous avons démontré l’intérêt du lysosome comme cible thérapeutique. Enfin, nous nous sommes focalisés sur l’hypothèse « prion » pour les synucléinopathies. Dans ce projet, nous avons mis en œuvre une approche de modélisation chez le primate non-humain ainsi qu’une une approche thérapeutique anti-agrégative chez le rongeur. Ces travaux mettent en évidence le rôle clé de l’α-synucléine dans l’étiologie de la MP et proposent des pistes d’améliorations des modèles animaux actuels ainsi que des approches thérapeutiques innovantes / The aim of this work was to focus on neurodegenerative mechanisms in the context of synucleinopathies, especially on Parkinson’s disease (PD). PD is characterized by the loss of dopaminergic neurons and the presence of intracytoplasmic proteinaceous inclusions named Lewy Bodies of which α-synuclein (α-syn) is the main protein component. To date, there are no curative treatments. Elucidating mechanisms underlying neurodegeneration in PD will allow the identification of new molecular targets for therapeutic intervention. My Ph.D. work intends multifactorial and translational approaches based on modelling, therapeutic intervention and mechanistic studies. We first focused on the development of new animal models of PD based on the use of viral vector-mediated overexpression of α-syn. This word allowed us to conclude on the absence of additive effect of ageing in α-syn-related toxicity, at least in the three investigated species. Then, we worked on two therapeutic strategies to overcome the lysosomal dysfunction occurring in PD. To do so, we first developed a biotechnological approach based on the use of acidic nanoparticles restoring acidic pH of sick lysosomes, and then we used a gene therapy approach based on the overexpression on a central modulator lysosomal biogenesis. We here demonstrated the interest of restoration of lysosomal physiology. Finally, we tested the “prion-like” hypothesis in a cohort of nonhuman primates and assessed the efficacy of a therapeutic approach using an oligomer modulator in mice. This work highlights the central role of α-syn in PD etiology and offers innovative strategies for both modelling and therapeutic intervention.

Maladie de Parkinson

Α-synucléine

Virus adéno-associés

Modèles animaux

Rongeur

Primate non-humain

Agrégation

Nanoparticules

Autophagie

Lysosomes

Parkinson’s disease

Α-synuclein

Adeno-associated viruses

Animal models

Rodent

Non-human primate

Protein aggregation

Nanoparticles

Autophagy

Lysosomes

Ecology and behaviour of an enigmatic fossorial rodent, the giant root-rat (Tachyoryctes macrocephalus), endemic to the Afroalpine habitat in the Bale Mountains, Ethiopia

VLASATÁ, Tereza

January 2019

The research in this thesis concerns with the ecology and behaviour of an endangered fossorial rodent, the giant root-rat (Tachyoryctes macrocephalus), in the Afroalpine ecosystem of the Bale Mountains, Ethiopia, and the results are discussed in relation with available ecological data on other fossorial/subterranean rodents. Firstly, this theses is focused on investigating the ecological role of the giant root-rat. The evaluation of root-rat's impact on various ecosystem features, in the first study, highly contributed to the knowledge not only about the species itself but also about the functioning of the ecosystem it inhabits. In fact, the results of the study indicated that the giant root-rat acts as an ecosystem engineer in the Afroalpine grasslands. Secondly, this thesis involves a pilot radio-telemetry study on the giant root-rat focusing on its temporal and spatial activity. Specifically, the results of the second study brought new light to giant root-rats' daily activity, its pattern, amount and seasonal change demonstrating the difference in activity patterns between strictly subterranean rodents and subterranean rodents with aboveground habits such as the giant root-rat. In the third study, we described the space-use patterns of the giant root-rat and revealed several trends in its spatial behaviour that can serve as a strategy to cope with the harsh and changeable environmental conditions in the Afroalpine ecosystem.

Conception, synthèse et évaluation biologique de nouveaux composés hétérocycliques anticoagulants à usage rodonticide / Design, synthesis and biological evaluation of new anticoagulant heterocyclic compounds for rodenticide use

Boulven, Manon

28 October 2016

A ce jour, les anticoagulants commerciaux souffrent de deux inconvénients majeurs : leur rémanence avec, pour certains d’entre eux, une demi-vie hépatique proche des 300 jours causant des intoxications secondaires sur les prédateurs des rongeurs, ainsi que le développement de nombreuses mutations génétiques causé par l’utilisation intensive de ces composés, rendant inopérant l’utilisation de certains AVKs commerciaux. Face à ce constat, l’Union Européenne envisage d’interdire l’utilisation de tels composés. La mission prioritaire est donc de trouver un anticoagulant capable de gérer les populations de rongeurs sans affecter leurs prédateurs. Les recherches mises en avant par Adrien Montagut (Thèse 2011-2014) ont permis d’aboutir à une structure type d’anticoagulants, dérivés de la 4-hydroxycoumarine. Actuellement, AMR361 a été testé in vitro sur l’ensemble des mutations de VKORC1 et in vivo sur rats sauvages, et constitue le premier AVK développé qui répond à l’ensemble des caractéristiques du cahier des charges initial. La première partie de mon projet de thèse consistait à compléter l’étude biologique sur le noyau 4-hydroxycoumarine en amenant de la diversité fonctionnelle sur la position para du noyau aromatique. D’un point de vue biologique, l’allongement du bras espaceur sur la chaîne latérale par l’utilisation de fonctions telles que les amides ou amides inversés ou l’introduction d’un groupement diméthyle sur le pont méthylène ont été étudiés afin d’analyser les paramètres d’efficacité et de rémanence. Cependant, la plupart des composés synthétisés appartenant à la famille des 4-hydroxycoumarines font déjà l’objet d’un brevet déposé par l’entreprise Liphatech en 1999. L’étude de nouveaux noyaux, dont certains sont analogues à la 4-hydroxycoumarine, de même que la fonctionnalisation du noyau 4-hydroxycoumarine sur la partie aromatique, a permis l’accès à des structures plus diverses. Ces perspectives originales pour l’innovation ont été introduites pour contourner les brevets déjà existants. / To date, commercial anticoagulants suffer from two major inconveniences: their persistence causing secondary poisoning of rodent predators and the development of many genetic mutations caused by the intensive use of these compounds. As a result, the European Union plans to prohibit the use of such compounds. Consequently, the priority task is to find an anticoagulant that can control the rodent populations without affecting their predators. The research of Dr. Adrien Montagut (PhD, 2011-2014) have led to the structure type of an anticoagulant derived from 4-hydroxycoumarin. Currently, AMR361 was tested in vitro on all VKORC1 mutations and in vivo on wild rats. It is the first AVK developed that responds to all the characteristics of the initial specification. The first part of my PhD was to complete the biological study on 4-hydroxycoumarin core by bringing functional diversity on the para position of the aromatic ring. From a biological point of view, the lengthening of the spacer arm on the side chain by use of various functions or the introduction of a dimethyl group on the methylene bridge were studied in order to analyze the effectiveness and persistence parameters. However, most of the synthesized compounds belonging to the family of 4-hydroxycoumarins are already described in a patent filed by Liphatech company in 1999. The study of new cores which are similar to the 4-hydroxycoumarin or the functionalization of the aromatic part of the 4-hydroxycoumarin has provided access to more diverse structures. These original possibilities for innovation have been introduced to circumvent existing patents.

Chimie organique

Synthèse chimique

Anticoagulant

Lutte contre les rongeurs

Hétérocycle

4-Hydroxycoumarine

Anti-Vitamine K

Ortho-Quinone méthide

Organic chemistry

Chemical synthesis

Anticoagulant

Rodent control

Heterocycle

4-Hydroxycoumarin

Anti-Vitamin K

Ortho-Quinone methide

547.507 2