Functional Characterization of Amphiphysin in Drosophila melanogaster

Chow, Brenda Marilyn

11 December 2012

Amphiphysin (Amph) is a multi-domain protein that has been implicated in synaptic vesicle (SV) endocytosis. In vertebrates, Amph1 associates with SVs and binds to known endocytic proteins, such as dynamin and clathrin. Overexpression of the vertebrate Amph1 SH3 domain is sufficient to inhibit SV endocytosis in the lamprey synapse. However, these in vitro and overexpression studies may not reflect Amph function in vivo. To investigate Amph function in vivo, I used Drosophila melanogaster as a model organism. I discovered that Drosophila Amph was broadly expressed throughout all developmental stages and was also highly expressed in specialized membranes such as the postsynaptic membrane at the larval neuromuscular junction and the t-tubule membranes of muscles. amph mutants were viable and had normal synaptic transmission, results that were inconsistent with a role for Amph in SV endocytosis. However, amph mutants had impaired locomotion, which may reflect a defect in the t-tubule network, a membrane system that is specialized to couple muscle membrane excitation to muscle contraction. To further explore this idea, I undertook a structure-function approach to ask if different Amph functional domains could rescue the t-tubule and locomotory defects observed in amph mutants. Partial rescue was observed for most constructs, suggesting that Amph function was dependent on more than one domain. To further elucidate how Amph functions at the t-tubule network, I used different in vitro methods to investigate novel protein partners for Amph. A GST pull-down approach identified actin as a potential Amph partner, consistent with studies in yeast. However, I could not confirm a direct interaction between Amph and actin in Drosophila. Another candidate partner was the actin-nucleating protein, Wiskott Aldrich Syndrome Protein, WASP. Although WASP and Amph could be coimmunoprecipitated in vitro, WASP was not expressed at the t-tubule membrane, and Wasp mutants had normal t-tubule morphology. Clearly, Amph is essential for normal t-tubule morphology and future work is needed to further define the function of Amph at the t-tubule network.

Amphiphysin

Endocytosis

T-tubules

Muscle

0379

Functional Characterization of Amphiphysin in Drosophila melanogaster

Chow, Brenda Marilyn

11 December 2012

Amphiphysin (Amph) is a multi-domain protein that has been implicated in synaptic vesicle (SV) endocytosis. In vertebrates, Amph1 associates with SVs and binds to known endocytic proteins, such as dynamin and clathrin. Overexpression of the vertebrate Amph1 SH3 domain is sufficient to inhibit SV endocytosis in the lamprey synapse. However, these in vitro and overexpression studies may not reflect Amph function in vivo. To investigate Amph function in vivo, I used Drosophila melanogaster as a model organism. I discovered that Drosophila Amph was broadly expressed throughout all developmental stages and was also highly expressed in specialized membranes such as the postsynaptic membrane at the larval neuromuscular junction and the t-tubule membranes of muscles. amph mutants were viable and had normal synaptic transmission, results that were inconsistent with a role for Amph in SV endocytosis. However, amph mutants had impaired locomotion, which may reflect a defect in the t-tubule network, a membrane system that is specialized to couple muscle membrane excitation to muscle contraction. To further explore this idea, I undertook a structure-function approach to ask if different Amph functional domains could rescue the t-tubule and locomotory defects observed in amph mutants. Partial rescue was observed for most constructs, suggesting that Amph function was dependent on more than one domain. To further elucidate how Amph functions at the t-tubule network, I used different in vitro methods to investigate novel protein partners for Amph. A GST pull-down approach identified actin as a potential Amph partner, consistent with studies in yeast. However, I could not confirm a direct interaction between Amph and actin in Drosophila. Another candidate partner was the actin-nucleating protein, Wiskott Aldrich Syndrome Protein, WASP. Although WASP and Amph could be coimmunoprecipitated in vitro, WASP was not expressed at the t-tubule membrane, and Wasp mutants had normal t-tubule morphology. Clearly, Amph is essential for normal t-tubule morphology and future work is needed to further define the function of Amph at the t-tubule network.

Amphiphysin

Endocytosis

T-tubules

Muscle

0379

Comparaison de l’ubiquitylation de différentes protéines à domaine SH3 impliquées dans l’endocytose suite à leur interaction avec la ligase de l’ubiquitine Itch

Desrochers, Guillaume

03 1900

Itch est la seule ligase de l'ubiquitine de type C2-WW-HECT capable d'interagir avec les protéines à domaine SH3. Ce domaine est particulièrement représenté parmi les protéines régulatrices de l'endocytose. Les travaux présentés ici visaient à examiner la capacité d'Itch à interagir avec plusieurs protéines endocytiques. Nous avons utilisé la technique du BRET (Bioluminescence Resonance Energy Transfer) pour examiner quelques protéines candidates. Nous avons ensuite confirmé les résultats obtenus par BRET avec des tests d'interaction in vitro, puis déterminé la capacité d'Itch à ubiquityler les protéines liées via leurs domaines SH3. Nous avons ainsi découvert deux nouveaux partenaires d'interaction et substrats d'Itch parmi les protéines endocytiques, amphyphisine et pacsine. De plus, Itch interagit avec les domaines SH3 isolés d'intersectine, mais pas avec la protéine complète, suggérant que cette dernière n'est pas un substrat d'Itch. Itch est donc bien positionnée pour exercer un rôle régulateur de l'endocytose en ubiquitylant ses substrats. / Itch is the only C2-WW-HECT type ubiquitin ligase that can bind SH3 domain proteins. This domain is particularly frequent in accessory endocytic proteins. We have used Bioluminescent Resonance Energy Transfer to examine a few candidate endocytic proteins, in addition to the already known substrate of Itch, endophilin. We then used standard in vitro techniques to confirm these interactions, and tested Itch capacity to ubiquitylate these putative substrate proteins. We thus discovered two new substrates of Itch, amphiphysin and pacsin. We also determined that although Itch interacts with the isolated SH3 domains of intersectin, it does not recognize the full length protein, thus rulling out Intersectin as a substrate of Itch. Itch is thus a putatively important regulator of endocytosis, through its capacity to recognize and ubiquitylate several SH3-domain proteins.

Itch

Endophiline

Pacsine

Intersectine

Amphiphysine

BRET

Ubiquitine

Endocytose

Endophilin

Pacsin

Intersectin

Amphiphysin

Ubiquitin

Endocytosis

Comparaison de l’ubiquitylation de différentes protéines à domaine SH3 impliquées dans l’endocytose suite à leur interaction avec la ligase de l’ubiquitine Itch

Desrochers, Guillaume

03 1900

Itch est la seule ligase de l'ubiquitine de type C2-WW-HECT capable d'interagir avec les protéines à domaine SH3. Ce domaine est particulièrement représenté parmi les protéines régulatrices de l'endocytose. Les travaux présentés ici visaient à examiner la capacité d'Itch à interagir avec plusieurs protéines endocytiques. Nous avons utilisé la technique du BRET (Bioluminescence Resonance Energy Transfer) pour examiner quelques protéines candidates. Nous avons ensuite confirmé les résultats obtenus par BRET avec des tests d'interaction in vitro, puis déterminé la capacité d'Itch à ubiquityler les protéines liées via leurs domaines SH3. Nous avons ainsi découvert deux nouveaux partenaires d'interaction et substrats d'Itch parmi les protéines endocytiques, amphyphisine et pacsine. De plus, Itch interagit avec les domaines SH3 isolés d'intersectine, mais pas avec la protéine complète, suggérant que cette dernière n'est pas un substrat d'Itch. Itch est donc bien positionnée pour exercer un rôle régulateur de l'endocytose en ubiquitylant ses substrats. / Itch is the only C2-WW-HECT type ubiquitin ligase that can bind SH3 domain proteins. This domain is particularly frequent in accessory endocytic proteins. We have used Bioluminescent Resonance Energy Transfer to examine a few candidate endocytic proteins, in addition to the already known substrate of Itch, endophilin. We then used standard in vitro techniques to confirm these interactions, and tested Itch capacity to ubiquitylate these putative substrate proteins. We thus discovered two new substrates of Itch, amphiphysin and pacsin. We also determined that although Itch interacts with the isolated SH3 domains of intersectin, it does not recognize the full length protein, thus rulling out Intersectin as a substrate of Itch. Itch is thus a putatively important regulator of endocytosis, through its capacity to recognize and ubiquitylate several SH3-domain proteins.

Itch

Endophiline

Pacsine

Intersectine

Amphiphysine

BRET

Ubiquitine

Endocytose

Endophilin

Pacsin

Intersectin

Amphiphysin

Ubiquitin

Endocytosis

Caractérisation des interactions établies par la région riche en prolines de la ligase de l’ubiquitine Itch

Desrochers, Guillaume

12 1900

No description available.

Ligase de l’ubiquitine

Itch

région riche en prolines

SH3

Endophiline

Pacsine

Amphiphysine

Grb2

β-PIX

endocytose

Ubiquitin ligase

Itch

proline-rich region

SH3

Endophilin

Pacsin

Amphiphysin

Grb2

β-PIX

endocytosis