Golgi inCOGnito: From vesicle tethering to human disease

The Conserved Oligomeric Golgi (COG) complex, a multi-subunit vesicle tethering complex of the CATCHR (Complexes Associated with Tethering Containing Helical Rods) family, controls several aspects of cellular homeostasis by orchestrating retrograde vesicle traffic within the Golgi. The COG complex i...

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Published inBiochimica et biophysica acta. General subjects Vol. 1864; no. 11; p. 129694
Main Authors D'Souza, Zinia, Taher, Farhana S., Lupashin, Vladimir V.
Format Journal Article
LanguageEnglish
Published Netherlands Elsevier B.V 01.11.2020
Subjects
Adaptor Proteins, Vesicular Transport - genetics
Adaptor Proteins, Vesicular Transport - metabolism
Animals
Biological Transport
CDG
COG complex
COG-CDG
Congenital Disorders of Glycosylation - genetics
Congenital Disorders of Glycosylation - metabolism
Congenital Disorders of Glycosylation - pathology
endosomes
Glycosylation
Golgi
Golgi Apparatus - genetics
Golgi Apparatus - metabolism
Golgi Apparatus - pathology
homeostasis
human diseases
Humans
Multiprotein Complexes - genetics
Multiprotein Complexes - metabolism
Mutation
patients
physiological transport
Protein Interaction Maps
protein secretion
Protein Subunits - genetics
Protein Subunits - metabolism
proteins
Vesicle tethering
PNA
HLH
TRAPP
CDG
EELS
CHO
GEARs
SNARE
Vesicle tethering
CATCHR
KD
Golgi
COG-CDG
COG
NIHF
WT
GSL
KO
CCD
MS
COG complex
EM
Glycosylation
HOPS
IEF
SNAP
ER
Y2H
AP
HEK
PI4P
RCA
ARF
CCT
HPA
GARP
TM
EARP
TGN
BFA
MTC
PM
COPI/COPII
LVH
Online AccessGet full text
ISSN0304-4165
1872-8006
1872-8006
DOI10.1016/j.bbagen.2020.129694

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Abstract The Conserved Oligomeric Golgi (COG) complex, a multi-subunit vesicle tethering complex of the CATCHR (Complexes Associated with Tethering Containing Helical Rods) family, controls several aspects of cellular homeostasis by orchestrating retrograde vesicle traffic within the Golgi. The COG complex interacts with all key players regulating intra-Golgi trafficking, namely SNAREs, SNARE-interacting proteins, Rabs, coiled-coil tethers, and vesicular coats. In cells, COG deficiencies result in the accumulation of non-tethered COG-complex dependent (CCD) vesicles, dramatic morphological and functional abnormalities of the Golgi and endosomes, severe defects in N- and O- glycosylation, Golgi retrograde trafficking, sorting and protein secretion. In humans, COG mutations lead to severe multi-systemic diseases known as COG-Congenital Disorders of Glycosylation (COG-CDG). In this report, we review the current knowledge of the COG complex and analyze COG-related trafficking and glycosylation defects in COG-CDG patients. [Display omitted] •Intracellular membrane trafficking and glycosylation.•COG complex structure and functions.•COG-CDGs: clinical presentation and molecular analysis.
AbstractList The Conserved Oligomeric Golgi (COG) complex, a multi-subunit vesicle tethering complex of the CATCHR (Complexes Associated with Tethering Containing Helical Rods) family, controls several aspects of cellular homeostasis by orchestrating retrograde vesicle traffic within the Golgi. The COG complex interacts with all key players regulating intra-Golgi trafficking, namely SNAREs, SNARE-interacting proteins, Rabs, coiled-coil tethers, and vesicular coats. In cells, COG deficiencies result in the accumulation of non-tethered COG-complex dependent (CCD) vesicles, dramatic morphological and functional abnormalities of the Golgi and endosomes, severe defects in N- and O- glycosylation, Golgi retrograde trafficking, sorting and protein secretion. In humans, COG mutations lead to severe multi-systemic diseases known as COG-Congenital Disorders of Glycosylation (COG-CDG). In this report, we review the current knowledge of the COG complex and analyze COG-related trafficking and glycosylation defects in COG-CDG patients.
The Conserved Oligomeric Golgi (COG) complex, a multi-subunit vesicle tethering complex of the CATCHR (Complexes Associated with Tethering Containing Helical Rods) family, controls several aspects of cellular homeostasis by orchestrating retrograde vesicle traffic within the Golgi. The COG complex interacts with all key players regulating intra-Golgi trafficking, namely SNAREs, SNARE-interacting proteins, Rabs, coiled-coil tethers, and vesicular coats. In cells, COG deficiencies result in the accumulation of non-tethered COG-complex dependent (CCD) vesicles, dramatic morphological and functional abnormalities of the Golgi and endosomes, severe defects in N- and O- glycosylation, Golgi retrograde trafficking, sorting and protein secretion. In humans, COG mutations lead to severe multi-systemic diseases known as COG-Congenital Disorders of Glycosylation (COG-CDG). In this report, we review the current knowledge of the COG complex and analyze COG-related trafficking and glycosylation defects in COG-CDG patients. [Display omitted] •Intracellular membrane trafficking and glycosylation.•COG complex structure and functions.•COG-CDGs: clinical presentation and molecular analysis.
The Conserved Oligomeric Golgi (COG) complex, a multi-subunit vesicle tethering complex of the CATCHR (Complexes Associated with Tethering Containing Helical Rods) family, controls several aspects of cellular homeostasis by orchestrating retrograde vesicle traffic within the Golgi. The COG complex interacts with all key players regulating intra-Golgi trafficking, namely SNAREs, SNARE-interacting proteins, Rabs, coiled-coil tethers, and vesicular coats. In cells, COG deficiencies result in the accumulation of non-tethered COG-complex dependent (CCD) vesicles, dramatic morphological and functional abnormalities of the Golgi and endosomes, severe defects in N- and O- glycosylation, Golgi retrograde trafficking, sorting and protein secretion. In humans, COG mutations lead to severe multi-systemic diseases known as COG-Congenital Disorders of Glycosylation (COG-CDG). In this report, we review the current knowledge of the COG complex and analyze COG-related trafficking and glycosylation defects in COG-CDG patients. Unlabelled Image • Intracellular membrane trafficking and glycosylation. • COG complex structure and functions. • COG-CDGs: clinical presentation and molecular analysis.
The Conserved Oligomeric Golgi (COG) complex, a multi-subunit vesicle tethering complex of the CATCHR (Complexes Associated with Tethering Containing Helical Rods) family, controls several aspects of cellular homeostasis by orchestrating retrograde vesicle traffic within the Golgi. The COG complex interacts with all key players regulating intra-Golgi trafficking, namely SNAREs, SNARE-interacting proteins, Rabs, coiled-coil tethers, and vesicular coats. In cells, COG deficiencies result in the accumulation of non-tethered COG-complex dependent (CCD) vesicles, dramatic morphological and functional abnormalities of the Golgi and endosomes, severe defects in N- and O- glycosylation, Golgi retrograde trafficking, sorting and protein secretion. In humans, COG mutations lead to severe multi-systemic diseases known as COG-Congenital Disorders of Glycosylation (COG-CDG). In this report, we review the current knowledge of the COG complex and analyze COG-related trafficking and glycosylation defects in COG-CDG patients.The Conserved Oligomeric Golgi (COG) complex, a multi-subunit vesicle tethering complex of the CATCHR (Complexes Associated with Tethering Containing Helical Rods) family, controls several aspects of cellular homeostasis by orchestrating retrograde vesicle traffic within the Golgi. The COG complex interacts with all key players regulating intra-Golgi trafficking, namely SNAREs, SNARE-interacting proteins, Rabs, coiled-coil tethers, and vesicular coats. In cells, COG deficiencies result in the accumulation of non-tethered COG-complex dependent (CCD) vesicles, dramatic morphological and functional abnormalities of the Golgi and endosomes, severe defects in N- and O- glycosylation, Golgi retrograde trafficking, sorting and protein secretion. In humans, COG mutations lead to severe multi-systemic diseases known as COG-Congenital Disorders of Glycosylation (COG-CDG). In this report, we review the current knowledge of the COG complex and analyze COG-related trafficking and glycosylation defects in COG-CDG patients.
ArticleNumber 129694
Author D'Souza, Zinia
Taher, Farhana S.
Lupashin, Vladimir V.
Author_xml – sequence: 1
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  fullname: Taher, Farhana S.
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  givenname: Vladimir V.
  surname: Lupashin
  fullname: Lupashin, Vladimir V.
  email: vvlupashin@uams.edu
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Issue 11
Keywords PNA
HLH
TRAPP
CDG
EELS
CHO
GEARs
SNARE
Vesicle tethering
CATCHR
KD
Golgi
COG-CDG
COG
NIHF
WT
GSL
KO
CCD
MS
COG complex
EM
Glycosylation
HOPS
IEF
SNAP
ER
Y2H
AP
HEK
PI4P
RCA
ARF
CCT
HPA
GARP
TM
EARP
TGN
BFA
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PM
COPI/COPII
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Language English
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Snippet The Conserved Oligomeric Golgi (COG) complex, a multi-subunit vesicle tethering complex of the CATCHR (Complexes Associated with Tethering Containing Helical...
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SubjectTerms Adaptor Proteins, Vesicular Transport - genetics
Adaptor Proteins, Vesicular Transport - metabolism
Animals
Biological Transport
CDG
COG complex
COG-CDG
Congenital Disorders of Glycosylation - genetics
Congenital Disorders of Glycosylation - metabolism
Congenital Disorders of Glycosylation - pathology
endosomes
Glycosylation
Golgi
Golgi Apparatus - genetics
Golgi Apparatus - metabolism
Golgi Apparatus - pathology
homeostasis
human diseases
Humans
Multiprotein Complexes - genetics
Multiprotein Complexes - metabolism
Mutation
patients
physiological transport
Protein Interaction Maps
protein secretion
Protein Subunits - genetics
Protein Subunits - metabolism
proteins
Vesicle tethering
Title Golgi inCOGnito: From vesicle tethering to human disease
URI https://dx.doi.org/10.1016/j.bbagen.2020.129694
https://www.ncbi.nlm.nih.gov/pubmed/32730773
https://www.proquest.com/docview/2429779169
https://www.proquest.com/docview/2477625268
https://pubmed.ncbi.nlm.nih.gov/PMC7384418
Volume 1864
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