Patrick Lall scite author profile

Rab11-FIP3 is an endosomal recycling compartment (ERC) protein that is implicated in the process of membrane delivery from the ERC to sites of membrane insertion during cell division. Here we report that Rab11-FIP3 is critical for the structural integrity of the ERC during interphase. We demonstrate that knockdown of Rab11-FIP3 and expression of a mutant of Rab11-FIP3 that is Rab11-binding deficient cause loss of all ERCmarker protein staining from the pericentrosomal region of A431 cells. Furthermore, we find that fluorophorelabelled transferrin cannot access the pericentrosomal region of cells in which Rab11-FIP3 function has been perturbed. We find that this Rab11-FIP3 function appears to be specific because expression of the equivalent Rab11-binding deficient mutant of Rab-coupling protein does not perturb ERC morphology. In addition, we find that other organelles such as sorting and late endosomes are unaffected by loss of Rab11-FIP3 function. Finally, we demonstrate the presence of an extensive coiled-coil region between residues 463 and 692 of Rab11-FIP3, which exists as a dimer in solution and is critical to support its function on the ERC. Together, these data indicate that Rab11-FIP3 is necessary for the structural integrity of the pericentrosomal ERC.

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Structure-Function Analyses of the Interactions between Rab11 and Rab14 Small GTPases with Their Shared Effector Rab Coupling Protein (RCP)

Lall

Lindsay

Hanscom

et al. 2015

Journal of Biological Chemistry

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Background: Rab14 regulates endosomal trafficking; however, its binding to Rab11-FIP effectors is a source of conflicting data. Results: Rab14 interacts with the canonical Rab-binding domain of RCP, and both Rab14 and RCP function in neuritogenesis. Conclusion: Rab11-RCP complex formation may precede recruitment of RCP by Rab14. Significance: This study provides a conceptual framework for Rab14 and RCP in health and disease.

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Structural and functional analysis of FIP2 binding to the endosome-localised Rab25 GTPase

Lall

Horgan

Oda

et al. 2013

Biochimica et Biophysica Acta (BBA) - Proteins and Proteomics

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A role for the Parkinson’s disease protein DJ-1 as a chaperone and antioxidant in the anhydrobiotic nematode Panagrolaimus superbus

Culleton

Lall

Kinsella

et al. 2015

Cell Stress and Chaperones

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Mutations in the human DJ-1/PARK7 gene are associated with familial Parkinson's disease. DJ-1 belongs to a large, functionally diverse family with homologues in all biological kingdoms. Several activities have been demonstrated for DJ-1: an antioxidant protein, a redoxregulated molecular chaperone and a modulator of multiple cellular signalling pathways. The majority of functional studies have focussed on human DJ-1 (hDJ-1), but studies on DJ-1 homologues in Drosophila melanogaster, Caenorhabditis elegans, Dugesia japonica and Escherichia coli also provide evidence of a role for DJ-1 as an antioxidant. Here, we show that dehydration is a potent inducer of a dj-1 gene in the anhydrobiotic nematode Panagrolaimus superbus. Our secondary structure and homology modelling analyses shows that recombinant DJ-1 protein from P. superbus (PsuDJ-1.1) is a well-folded protein, which is similar in structure to the hDJ-1. PsuDJ-1.1 is a heat stable protein; with T 1/2 unfolding transition values of 76 and 70°C obtained from both circular dichroism (CD) and Fourier transform infrared spectroscopy (FTIR) measurements respectively. We found that PsuDJ-1.1 is an efficient antioxidant that also functions as a 'holdase' molecular chaperone that can maintain its chaperone function in a reducing environment. In addition to its chaperone activity, PsuDJ-1.1 may also be an important non-enzymatic antioxidant, capable of providing protection to P. superbus from oxidative damage when the nematodes are in a desiccated, anhydrobiotic state.

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Expression and structural characterization of peripherin/RDS, a membrane protein implicated in photoreceptor outer segment morphology

et al. 2009

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Peripherin/RDS is a member of the tetraspanin family of integral membrane proteins and plays a major role in the morphology of photoreceptor outer segments. Peripherin/RDS has a long extracellular loop (hereafter referred to as the LEL domain), which is vital for its function. Point mutations in the LEL domain often lead to impaired photoreceptor formation and function, making peripherin/RDS an important drug target. Being a eukaryotic membrane protein, acquiring sufficient peripherin/ RDS for biophysical characterisation represents a significant challenge. Here, we describe the expression and characterisation of peripherin/RDS in Drosophila melangolaster Schneider (S2) insect cells and in the methylotrophic yeast Pichia pastoris. The wild-type peripherin/RDS and the retinitis pigmentosa causing P216L mutant from S2 cells are characterised using circular dichroism (CD) spectroscopy. The structure of peripherin/RDS and of a pathogenic mutant is assessed spectroscopically for the first time. These findings are evaluated in relation to a three-dimensional model of the functionally important LEL domain obtained by protein threading.

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Patrick Lall

Rab11‐FIP3 Is Critical for the Structural Integrity of the Endosomal Recycling Compartment

Structure-Function Analyses of the Interactions between Rab11 and Rab14 Small GTPases with Their Shared Effector Rab Coupling Protein (RCP)

Structural and functional analysis of FIP2 binding to the endosome-localised Rab25 GTPase

A role for the Parkinson’s disease protein DJ-1 as a chaperone and antioxidant in the anhydrobiotic nematode Panagrolaimus superbus

Expression and structural characterization of peripherin/RDS, a membrane protein implicated in photoreceptor outer segment morphology

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