Synthesis of a PbTx-2 photoaffinity and fluorescent probe and an alternative synthetic route to photoaffinity probes

Cassell, Ryan T

29 July 2014

A natural phenomenon characterized by dense aggregations of unicellular photosynthetic marine organisms has been termed colloquially as red tides because of the vivid discoloration of the water. The dinoflagellate Karenia brevis is the cause of the Florida red tide bloom. K. brevis produces the brevetoxins, a potent suite of neurotoxins responsible for substantial amounts of marine mammal and fish mortalities. When consumed by humans, the toxin causes Neurotoxic Shellfish Poisoning (NSP). The native function of brevetoxin within the organism has remained mysterious since its discovery. There is a need to identify factors which contribute to and regulate toxin production within K. brevis. These toxins are produced and retained within the cell implicating a significant cellular role for their presence. Localization of brevetoxin and identification of a native receptor may provide insight into its native role as well as other polyether ladder type toxins such as the ciguatoxins, maitotoxins, and yessotoxins. In higher organisms these polyether ladder molecules bind to transmembrane proteins with high affinity. We anticipated the native brevetoxin receptor would also be a transmembrane protein. Photoaffinity labeling has become increasingly popular for identifying ligand receptors. By attaching ligands to these photophors, one is able to activate the molecule after the ligand binds to its receptor to obtain a permanent linkage between the two. Subsequent purification provides the protein with the ligand directly attached. A molecule that is capable of fluorescence is a fluorophore, which upon excitation is capable of re-emitting light. Fluorescent labeling uses fluorophores by attaching them covalently to biologically active compounds. The synthesis of a brevetoxin photoaffinity probe and its application in identifying a native brevetoxin receptor will be described. The preparation of a fluorescent derivative of brevetoxin will be described and its use in localizing the toxin to an organelle within K. brevis. In addition, the general utility of a synthesized photoaffinity label with other toxins having similar functionality will be described. An alternative synthetic approach to a general photoaffinity label will also be discussed whose goal was to accelerate the preparation and improve the overall synthetic yields of a multifunctional label.

brevetoxin

photoaffinity probe

red tide

NSP

labeling

alexa fluor

polyether ladder toxins

thiol-michael addition

diazirines

biotin

click chemistry

voltage-gated sodium channels

Organic Chemistry

Développement d’une sonde de photoaffinité pour la détection sensible de formes actives de Métalloprotéases Matricielles dans des systèmes biologiques complexes / Developpement of a photoaffinity probe for the sensitive detection of Matrix Metalloprotease active forms from complex biological systems

Nury, Catherine

26 November 2012

Le développement d’une nouvelle sonde dite « activity-based probe » pour réaliser la détection de formes actives de protéases appartenant à la famille des protéases à zinc de la matrice (MMP) a été réalisé dans ce travail, en partant d’un inhibiteur phosphinique puissant des MMP dans lequel a été introduit un groupement photoactivable de type diazérine. Ce composé se révèle un inhibiteur puissant de plusieurs MMP avec des affinités nanomolaires. Ce composé incubé avec différentes MMP est par ailleurs capables de modifier de façon covalente un grand nombre de MMP au niveau de leur site actif, avec des rendements de modification variant de plus de 50% à 11%, selon la nature des MMP. En ayant choisi comme moyen de détection la radioactivité, nous démontrons qu’avec cette nouvelle sonde qu’il est possible de détecter des formes actives de MMP avec des sensibilités de l’ordre de la femtomole dans des systèmes modèles de protéomes complexes. Appliquée à l’analyse de lavages broncho alvéolaires de souris traitées par voie pulmonaire avec des nanoparticules pour induire une réponse inflammatoire, cette nouvelle sonde permet de mettre en évidence la présence de formes actives du domaine catalytique de la MMP-12, une métalloprotéase à zinc exprimée par les macrophages, mais pas dans les animaux contrôles. En revanche l’analyse de carotides humaines de patients souffrant d’athérosclérose ne nous pas conduit avec cette sonde à la détection de formes actives de MMP. Malgré ce résultat, il est à noter que la détection de forme active de MMP dans un fluide pathologique est une première dans ce domaine. Cette sonde étant validée pour sa capacité à détecter des formes actives de MMP, elle permettra dans l’avenir de tester d’autres fluides pathologiques d’origine humaine ou bien des extraits de tissu comme des tumeurs pour lesquels les MMP pourraient être des marqueurs de ces pathologies. / A new activity-based probe able to covalently modify the active site of proteases belonging to the matrix metalloprotease family (MMPs) has been developed in this thesis project. The probe was shown to behave as potent inhibitor of several MMPs, with nanomolar Ki values. This probe was also able to modify specifically only the free active site of MMPs, with particular high yields of cross-linking varying from 50 % to 11 %, depending of the MMPs tested. Using radioactivity as means of detection, this probe was able to detect active form of MMPs with a threshold of 1 femtomole. Applied to the study of bronchoalvelolar fluids (BAL) from mice exposed to nanoparticles by a lung aspiration protocol, this probe revealed the presence of the catalytic domain of MMP-12 under its active form, but not in control animals. When used to detect active form of MMPs from extracts obtained from human arteries of patient suffering from atherosclerosis, the probe was not able to detect such MMP active forms. Despite this negative result, the detection of active form of MMP in pathological fluid like BAL has never been reported before this work. Having validated this novel MMP activity-based probe, it will be possible to use it now for detecting MMPs from other pathological fluids or tissues extracts in which MMPs can be good markers of the pathology.

MMPs

Métalloprotéases matricielles

Sonde de photoaffinité

APB

Activity-based probe

Diazirine

Inhibiteur phosphinique peptidique

MMP-12

Fluide lavage bronchoalvéolaire

MMPs

Matrix metalloproteases

Activity-based probe

APB

Photoaffinity probe

Diazirine

Phosphinic peptide inhibitors

MMP-12

Bronchoalveolar lavage fluid

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