TANGO1 builds a machine for collagen export by recruiting and spatially organizing COPII, tethers and membranes

Raote, Ishier; Ortega-Bellido, Maria; Santos, António J. M.; Foresti, Ombretta; Zhang, Chong; García‐Parajó, María F.; Campelo, Felix; Malhotra, Vivek

doi:10.7554/elife.32723

Cited by 116 publications

(160 citation statements)

References 50 publications

Supporting

Mentioning

149

Contrasting

Unclassified

Order By: Relevance

“…izes with proteins of the TANGO1 family (such as TANGO1 itself, the TANGO1-like protein 59 cTAGE5, and the spliced isoform TANGO1-Short) (Saito et al, 2011;Maeda, Saito and 60 Katada, 2016; Raote et al, 2018). Recently, we visualized procollagen export domains with 61 high lateral spatial resolution using stimulated emission depletion (STED) nanoscopy in mam-62 malian tissue cultured cells (Raote et al, 2017.…”

Section: Introduction 37mentioning

confidence: 99%

“…In such a situa-611 tion, carrier expansion -according to the results of our model-can proceed via three different 612 scenarios: (i) increase in the binding affinity of COPII coats to the membrane (Figure 5C and 613 Figure 6); (ii) appearance of a directed force applied at the growing carrier and pointing to-614 wards the cytosol (Figure 5D and Figure 6); and (iii) local reduction of the membrane tension 615 (Figure 6). TANGO1 can directly or indirectly control each of these possibilities (Ma and 616 Goldberg, 2016; Raote et al, 2018). Interestingly, the TANGO1 ring properties, such as the 617 linactant power of TANGO1 or the TANGO1 filament bending rigidity, are not drivers of the 618 incomplete bud to long transport intermediate transition (Figure 6C,D), but they seem to act 619 more as kinetic controllers of the transition by preventing bud closure (Figure 4).…”

Section: Introduction 37mentioning

confidence: 99%

See 1 more Smart Citation

A physical mechanism of TANGO1-mediated bulky cargo export

Raote

Chabanon

Walani

et al. 2019

Preprint

Self Cite

View full text Add to dashboard Cite

25The endoplasmic reticulum (ER)-resident transmembrane protein TANGO1 assembles 26 into rings around COPII subunits at ER exit sites (ERES), and links cytosolic membrane-27 remodeling machinery, tethers, and ER-Golgi intermediate compartment (ERGIC) mem-28 branes to procollagens in the ER lumen (Raote et al., 2018). This arrangement is proposed 29to create a direct route for transfer of procollagens from ERES to ERGIC membranes. 30Here, we present a physical model in which TANGO1 forms a linear filament that wraps 31around COPII lattices at ERES to stabilize the neck of a growing carrier on the cytoplas-32 mic face of the ER. Importantly, our results show that TANGO1 can induce the formation 33 of transport intermediates by regulating ER membrane tension. Altogether, our theoret-34ical approach provides a mechanical framework of how TANGO1 acts as a membrane 35 tension regulator to control procollagen export from the ER. 36 95 mation model. ERES consisting of COPII subunits assemble into in-plane circular lattices (orange), 96whereas proteins of the TANGO1 family assemble into filaments by lateral protein-protein interactions 97 (light blue). A tug-of-war between the affinity of the TANGO1 filament to bind COPII subunits (promoting 98 wetting) and the resistance of the filament to be bent (promoting dewetting) controls the wetting-dewetting 99 transition. Only when TANGO1 wets the COPII lattice, it acts as a linactant by stabilizing the peripheral 100 COPII subunits. 101 102 5

show abstract

Section: Introduction 37mentioning

confidence: 99%

Section: Introduction 37mentioning

confidence: 99%

A physical mechanism of TANGO1-mediated bulky cargo export

Raote

Chabanon

Walani

et al. 2019

Preprint

Self Cite

View full text Add to dashboard Cite

show abstract

“…HSP47 is a collagen-specific chaperone that recognizes collagen trimers in the ER and prevents their premature aggregation during secretion (48). Collagen secretion also requires TANGO1, a protein that facilitates the assembly of a collagen export machine in the ER (19,20). However, no apparent HSP47 and TANGO1 orthologs can be found in C. elegans or Drosophila (21-23).…”

Section: Discussionmentioning

confidence: 99%

“…TRAPPC8 is a key component of TRAPP III, a subtype of TRAPP that acts as a guanine nucleotide exchange factor (GEF) to activate Rab GTPase to promote ER-to-Golgi cargo trafficking. Collagen production also requires HSP47, a procollagen chaperone in the ER, and TANGO1, an ER transmembrane protein that facilitates the export of bulky cargo with collagen (19,20).Intriguingly, HSP47 and TANGO1 orthologs are present only in vertebrates (21-23), raising the question whether mechanisms conserved in all animals exist to recognize procollagens for assembly into export-competent collagen trimers in route for secretion.In this study, we identify a previously uncharacterized C. elegans gene tmem-131 that defines an evolutionarily conserved protein family important for procollagen recruitment and secretion. The exoskeleton of C. elegans, is a complex collagen matrix that comprises many distinct mature collagen proteins, including COL-19, an adult-specific, hypodermally synthesized collagen (24).…”

mentioning

confidence: 99%

See 1 more Smart Citation

Broadly Conserved TMEM-131 Family Proteins in Collagen Production and Secretory Cargo Trafficking

Zhang

Bai

Barbosa

et al. 2019

Preprint

View full text Add to dashboard Cite

Collagen is the most abundant protein in animals. Its dysregulation contributes to ageing and human disorders including tissue fibrosis in major organs. How premature collagens in the endoplasmic reticulum (ER) assemble and route for secretion remains molecularly undefined. From an RNAi screen, we identified an uncharacterized C. elegans gene tmem-131, deficiency of which impairs collagen production and activates ER stress response. TMEM-131 N-termini contain bacterial PapD chaperone-like (PapD-L) domains essential for collagen assembly and secretion. Human TMEM131 binds to COL1A2 and TRAPPC8 via N-terminal PapD-L and C-terminal domain, respectively, to drive collagen production. We provide evidence that previously undescribed roles of TMEM131 in collagen recruitment and secretion are evolutionarily conserved in C. elegans, Drosophila and humans.Collagen is the major extracellular component of connective tissues and is the most abundant protein in animals (1-3). Production of mature collagen is a multi-step process, involving collagen gene regulation, protein biosynthesis, post-translational modifications in the endoplasmic reticulum (ER), formation of secretion-competent trimers, and extracellular C-propeptide cleavage and cross-linking among trimers (1-3). Dysregulation of collagen production or deposition contributes to a wide variety of human disorders, including diabetes, ageing and pathological tissue fibrosis in major organs such as kidneys, liver, lungs and heart (4-9). The type I collagen is the most abundant fibril-type collagen and its trimer comprises two α1 (I) procollagen chains and one α2 (I) procollagen chain, encoded by the genes COL1A1 and COL1A2, respectively. Both COL1A1 and COL1A2 contain C-terminal domains (C-propeptide) responsible for initial chain trimerization. The trimerization occurs via a zipper-like mechanisms, initiating from the C-propeptide domain of α1/2 (I) in close proximity to ER membranes (10-13). Although the enzymes responsible for type I collagen modification, extracellular cleavage and cross-linking have been well described (1,14), how procollagen monomers are recruited to assemble into secretioncompetent multimers in the ER remains poorly understood.COPII-coated vesicles mediate ER-to-Golgi anterograde transport of secretioncompetent cargos, including those containing collagens (15,16). Tethering COPII vesicles from ER to Golgi membranes requires TRAPP (transport protein particle), a multi-subunit protein complex highly conserved in eukaryotes (17,18). TRAPPC8 is a key component of TRAPP III, a subtype of TRAPP that acts as a guanine nucleotide exchange factor (GEF) to activate Rab GTPase to promote ER-to-Golgi cargo trafficking. Collagen production also requires HSP47, a procollagen chaperone in the ER, and TANGO1, an ER transmembrane protein that facilitates the export of bulky cargo with collagen (19,20).Intriguingly, HSP47 and TANGO1 orthologs are present only in vertebrates (21-23), raising the question whether mechanisms conserved in all animals exist to recognize ...

show abstract

The small GTPase Sar1, control centre of COPII trafficking

Verren

Zanetti

2023

FEBS Letters

View full text Add to dashboard Cite

Edited by Jacqueline CherfilsSar1 is a small GTPase of the ARF family. Upon exchange of GDP for GTP, Sar1 associates with the endoplasmic reticulum (ER) membrane and recruits COPII components, orchestrating cargo concentration and membrane deformation. Many aspects of the role of Sar1 and regulation of its GTP cycle remain unclear, especially as complexity increases in higher organisms that secrete a wider range of cargoes. This review focusses on the regulation of GTP hydrolysis and its role in coat assembly, as well as the mechanism of Sar1-induced membrane deformation and scission. Finally, we highlight the additional specialisation in higher eukaryotes and the outstanding questions on how Sar1 functions are orchestrated.

show abstract

TANGO1 builds a machine for collagen export by recruiting and spatially organizing COPII, tethers and membranes

Cited by 116 publications

References 50 publications

A physical mechanism of TANGO1-mediated bulky cargo export

A physical mechanism of TANGO1-mediated bulky cargo export

Broadly Conserved TMEM-131 Family Proteins in Collagen Production and Secretory Cargo Trafficking

The small GTPase Sar1, control centre of COPII trafficking

Contact Info

Product

Resources

About