Sugar transporter Slc37a2 regulates bone metabolism in mice via a tubular lysosomal network in osteoclasts.

Osteoclasts are giant bone-digesting cells that harbor specialized lysosome-related organelles termed secretory lysosomes (SLs). SLs store cathepsin K and serve as a membrane precursor to the ruffled border, the osteoclast's 'resorptive apparatus'. Yet, the molecular composition and spatiotemporal organization of SLs remains incompletely understood.

Multifaceted Roles of Retromer in EGFR Trafficking and Signaling Activation.

Mammalian retromer complex contributes to multiple early endosome-associated trafficking pathways whose origins are dependent on which sorting nexin (SNX) they are complexed with. In an attempt to dissect out the contribution of individual retromer-SNX complexes, we examined the trafficking of EGFR in detail within a series of KO cell line models. We demonstrated that the depletion of retromer subunit Vps35 leads to decreased EGFR protein levels in resting cells with enhanced association of EGFR with lysosomal compartments.

De novo macrocyclic peptides for inhibiting, stabilizing, and probing the function of the retromer endosomal trafficking complex.

The retromer complex (Vps35-Vps26-Vps29) is essential for endosomal membrane trafficking and signaling. Mutation of the retromer subunit Vps35 causes late-onset Parkinson’s disease, while viral and bacterial pathogens can hijack the complex during cellular infection. To modulate and probe its function, we have created a novel series of macrocyclic peptides that bind retromer with high affinity and specificity.

Retromer dependent changes in cellular homeostasis and Parkinson's disease.

To date, mechanistic treatments targeting the initial cause of Parkinson's disease (PD) are limited due to the underlying biological cause(s) been unclear. Endosomes and their associated cellular homeostasis processes have emerged to have a significant role in the pathophysiology associated with PD. Several variants within retromer complex have been identified and characterised within familial PD patients.

An inverted CAV1 (caveolin 1) topology defines novel autophagy-dependent exosome secretion from prostate cancer cells.

CAV1 (caveolin 1) expression and secretion is associated with prostate cancer (PCa) disease progression, but the mechanisms underpinning CAV1 release remain poorly understood. Numerous studies have shown CAV1 can be secreted within exosome-like vesicles, but antibody-mediated neutralization can mitigate PCa progression; this is suggestive of an inverted (non-exosomal) CAV1 topology. Here we show that CAV1 can be secreted from specific PCa types in an inverted vesicle-associated form consistent with the features of bioactive CAV1 secretion.

Subcellular Fractionation of Hela Cells for Lysosome Enrichment Using a Continuous Percoll-Density Gradient.

The enrichment of lysosomes is a useful way to study their structure and function. These dynamic vesicles can be enriched from cell cultures in a variety of ways including immunoprecipitation and fluorescence-activated organelle sorting. These methods are extremely precise but often require the transfection and expression of an affinity or fluorophore-tagged lysosomal membrane protein.

Classification of the human phox homology (PX) domains based on their phosphoinositide binding specificities.

Phox homology (PX) domains are membrane interacting domains that bind to phosphatidylinositol phospholipids or phosphoinositides, markers of organelle identity in the endocytic system. Although many PX domains bind the canonical endosome-enriched lipid PtdIns3P, others interact with alternative phosphoinositides, and a precise understanding of how these specificities arise has remained elusive. Here we systematically screen all human PX domains for their phospholipid preferences using liposome binding assays, biolayer interferometry and isothermal titration calorimetry.

Downregulation of SNX27 expression does not exacerbate amyloidogenesis in the APP/PS1 Alzheimer's disease mouse model.

There is in vitro evidence that sorting nexin family member 27 (SNX27), a member of the retromer complex, changes the distribution of the amyloid-beta (Aβ) precursor protein (APP) to promote its recycling and thereby prevent the production of Aβ, the toxic protein associated with Alzheimer's disease (AD). In this study, we analyzed the phenotype of the familial AD APP/PS mouse strain lacking one copy of the SNX27 gene. The reduction in SNX27 expression had no significant effect on the in vivo accumulation of soluble, total, or plaque-deposited Aβ, which is overproduced by the familial APP/PS transgenes.

A role of GCC88 in the retrograde transport of CI-M6PR and the maintenance of lysosomal activity.

GCC88 is a golgin coiled-coil protein at the trans-Golgi (TGN) that functions as a tethering factor for the endosome-derived retrograde transport vesicles. Here, we demonstrate that GCC88 is required for the endosome-to-TGN retrograde transport of the cation-independent mannose 6-phosphate receptor (CI-M6PR). The knockout of GCC88 perturbs the retrieval of CI-M6PR and decreases its cellular level at the steady state, which causes the improper processing of newly synthesized cathepsin-D, a lysosomal hydrolase dependent on CI-M6PR for its delivery to lysosomes.

Retromer has a selective function in cargo sorting via endosome transport carriers.

Retromer is a peripheral membrane protein complex that coordinates multiple vesicular trafficking events within the endolysosomal system. Here, we demonstrate that retromer is required for the maintenance of normal lysosomal morphology and function. The knockout of retromer subunit Vps35 causes an ultrastructural alteration in lysosomal structure and aberrant lysosome function, leading to impaired autophagy.

Structure of the membrane-assembled retromer coat determined by cryo-electron tomography.

Eukaryotic cells traffic proteins and lipids between different compartments using protein-coated vesicles and tubules. The retromer complex is required to generate cargo-selective tubulovesicular carriers from endosomal membranes. Conserved in eukaryotes, retromer controls the cellular localization and homeostasis of hundreds of transmembrane proteins, and its disruption is associated with major neurodegenerative disorders.

Sorting nexin 27 (SNX27) regulates the trafficking and activity of the glutamine transporter ASCT2.

Alanine-, serine-, cysteine-preferring transporter 2 (ASCT2, SLC1A5) is responsible for the uptake of glutamine into cells, a major source of cellular energy and a key regulator of mammalian target of rapamycin (mTOR) activation. Furthermore, ASCT2 expression has been reported in several human cancers, making it a potential target for both diagnostic and therapeutic purposes. Here we identify ASCT2 as a membrane-trafficked cargo molecule, sorted through a direct interaction with the PDZ domain of sorting nexin 27 (SNX27).

The functional roles of retromer in Parkinson's disease.

The endosomal system is critical for the maintenance of intracellular homeostasis, and defects in this system are often linked to neurological disorders. The retromer complex is a critical coordinator of endosomal dynamics and has functional roles in multiple cellular processes through sorting cargoes from endosomes to the trans-Golgi network (TGN) or to the plasma membrane. Mammalian retromer comprises a core Vps26-Vps35-Vps29 trimer and associates with a range of proteins to generate endosomal tubular-vesicular carriers.

SopB-Mediated Recruitment of SNX18 Facilitates Typhimurium Internalization by the Host Cell.

To invade epithelial cells, serovar Typhimurium (. Typhimurium) induces macropinocytosis through the action of virulence proteins delivered across the host cell membrane via a type III secretion system. We show that after docking at the plasma membrane .

Laser-mediated rupture of chlamydial inclusions triggers pathogen egress and host cell necrosis.

Remarkably little is known about how intracellular pathogens exit the host cell in order to infect new hosts. Pathogenic chlamydiae egress by first rupturing their replicative niche (the inclusion) before rapidly lysing the host cell. Here we apply a laser ablation strategy to specifically disrupt the chlamydial inclusion, thereby uncoupling inclusion rupture from the subsequent cell lysis and allowing us to dissect the molecular events involved in each step.

Structural basis for the hijacking of endosomal sorting nexin proteins by .

During infection chlamydial pathogens form an intracellular membrane-bound replicative niche termed the inclusion, which is enriched with bacterial transmembrane proteins called Incs. Incs bind and manipulate host cell proteins to promote inclusion expansion and provide camouflage against innate immune responses. Sorting nexin (SNX) proteins that normally function in endosomal membrane trafficking are a major class of inclusion-associated host proteins, and are recruited by IncE/CT116.

Salmonella effector SopD2 interferes with Rab34 function.

Many intracellular pathogens have evolved highly specialized mechanisms to isolate themselves from the host cell's innate immune response while still obtaining the necessary nutrients to survive. Salmonella utilizes type 3 secretion systems (T3SSs) to deliver bacterial proteins called effectors, across the encompassing Salmonella Containing vacuole (SCV) membrane, to subvert the host's membrane trafficking pathways and alter other cellular processes. The Salmonella Pathogenicity Island (SPI)-2 effector SopD2 has recently been demonstrated to modulate multiple members of the Rab GTPase family such as Rab7, Rab8, Rab10, and Rab32 (D'Costa et al.

MTMR4 Is Required for the Stability of the Salmonella-Containing Vacuole.

The intracellular pathogen Salmonella enterica servovar Typhimurium (S.typhimurium) modulates the host cell's phosphoinositide (PI) metabolism to establish its intracellular replicative niche, the Salmonella-containing vacuole (SCV). Upon invasion, phosphoinositide 3-phosphate (PI(3)P) and other early endosomal markers are rapidly recruited to and remain associated with the SCV throughout its early maturation.

A molecular code for endosomal recycling of phosphorylated cargos by the SNX27-retromer complex.

Recycling of internalized receptors from endosomal compartments is essential for the receptors' cell-surface homeostasis. Sorting nexin 27 (SNX27) cooperates with the retromer complex in the recycling of proteins containing type I PSD95-Dlg-ZO1 (PDZ)-binding motifs. Here we define specific acidic amino acid sequences upstream of the PDZ-binding motif required for high-affinity engagement of the human SNX27 PDZ domain.

Parkinson Disease-linked Vps35 R524W Mutation Impairs the Endosomal Association of Retromer and Induces α-Synuclein Aggregation.

Endosomal sorting is a highly orchestrated cellular process. Retromer is a heterotrimeric complex that associates with endosomal membranes and facilitates the retrograde sorting of multiple receptors, including the cation-independent mannose 6-phosphate receptor for lysosomal enzymes. The cycling of retromer on and off the endosomal membrane is regulated by a network of retromer-interacting proteins.

Retromer's Role in Endosomal Trafficking and Impaired Function in Neurodegenerative Diseases.

The retromer complex is a highly conserved membrane trafficking assembly composed of three proteins - Vps26, Vps29 and Vps35 - that were identified over a decade ago in Saccharomyces cerevisiae (S. cerevisiae). Initially, mammalian retromer was shown to sort transmembrane proteins from the endosome to the trans-Golgi network (TGN), though recent work has identified a critical role for retromer in multiple trafficking pathways, including recycling to the plasma membrane and regulation of cell polarity.

Sortilin is associated with the chlamydial inclusion and is modulated during infection.

Chlamydia species are obligate intracellular pathogens that have a major impact on human health. The pathogen replicates within an intracellular niche called an inclusion and is thought to rely heavily on host-derived proteins and lipids, including ceramide. Sortilin is a transmembrane receptor implicated in the trafficking of acid sphingomyelinase, which is responsible for catalysing the breakdown of sphingomyelin to ceramide.

Sorting nexin 27 couples PTHR trafficking to retromer for signal regulation in osteoblasts during bone growth.

The parathyroid hormone 1 receptor (PTHR) is central to the process of bone formation and remodeling. PTHR signaling requires receptor internalization into endosomes, which is then terminated by recycling or degradation. Here we show that sorting nexin 27 (SNX27) functions as an adaptor that couples PTHR to the retromer trafficking complex.

Modular Detection of GFP-Labeled Proteins for Rapid Screening by Electron Microscopy in Cells and Organisms.

Reliable and quantifiable high-resolution protein localization is critical for understanding protein function. However, the time required to clone and characterize any protein of interest is a significant bottleneck, especially for electron microscopy (EM). We present a modular system for enzyme-based protein tagging that allows for improved speed and sampling for analysis of subcellular protein distributions using existing clone libraries to EM-resolution.