BookR: School of Health Core Facilities Booking
PubMed Publications| Keyword search (4,163 papers available) |  |
"Sacher M" Authored Publications:
| Title | Authors | PubMed ID | |
|---|---|---|---|
| 1 | Cross-species evaluation of TANGO2 homologs, including HRG-9 and HRG-10 in em Caenorhabditis elegans, /em challenges a proposed role in heme trafficking | Sandkuhler SE; Youngs KS; Gottipalli O; Owlett LD; Bandora MB; Naaz A; Kim E; Wang L; Wojtovich A; Gupta V; Sacher M; Mackenzie SJ; | 41504601 BIOLOGY |
| 2 | SEC24C deficiency causes trafficking and glycosylation abnormalities in an epileptic encephalopathy with cataracts and dyserythropoeisis | Bögershausen N; Cavdarli B; Nagai T; Milev MP; Wolff A; Mehranfar M; Schmidt J; Choudhary D; Gutiérrez-Gutiérrez Ó; Cyganek L; Saint-Dic D; Zibat A; Köhrer K; Wollenweber TE; Wieczorek D; Altmüller J; Borodina T; Kaçar D; Haliloglu G; Li Y; Thiel C; Sacher M; Knapik EW; Yigit G; Wollnik B; | 40131364 BIOLOGY |
| 3 | Imaging flow cytometry-based cellular screening elucidates pathophysiology in individuals with Variants of Uncertain Significance | Muffels IJJ; Waterham HR; D' Alessandro G; Zagnoli-Vieira G; Sacher M; Lefeber DJ; Van der Vinne C; Roifman CM; Gassen KLI; Rehmann H; Van Haaften-Visser DY; Nieuwenhuis ESS; Jackson SP; Fuchs SA; Wijk F; van Hasselt P; | 39920830 BIOLOGY |
| 4 | A Humanized Yeast Model for Studying TRAPP Complex Mutations; Proof-of-Concept Using Variants from an Individual with a TRAPPC1-Associated Neurodevelopmental Syndrome | Zykaj E; Abboud C; Asadi P; Warsame S; Almousa H; Milev MP; Greco BM; López-Sánchez M; Bratkovic D; Kachroo AH; Pérez-Jurado LA; Sacher M; | 39273027 BIOLOGY |
| 5 | TANGO2 deficiency disease is predominantly caused by a lipid imbalance | Sacher M; DeLoriea J; Mehranfar M; Casey C; Naaz A; Gamberi C; | 38836374 BIOLOGY |
| 6 | Natural history of TANGO2 deficiency disorder: Baseline assessment of 73 patients | Miyake CY; Lay EJ; Soler-Alfonso C; Glinton KE; Houck KM; Tosur M; Moran NE; Stephens SB; Scaglia F; Howard TS; Kim JJ; Pham TD; Valdes SO; Li N; Murali CN; Zhang L; Kava M; Yim D; Beach C; Webster G; Liberman L; Janson CM; Kannankeril PJ; Baxter S; Singer-Berk M; Wood J; Mackenzie SJ; Sacher M; Ghaloul-Gonzalez L; Pedroza C; Morris SA; Ehsan SA; Azamian MS; Lalani SR; | 36473599 BIOLOGY |
| 7 | Dynamic regulation of inter-organelle communication by ubiquitylation controls skeletal muscle development and disease onset | Mansur A; Joseph R; Kim ES; Jean-Beltran PM; Udeshi ND; Pearce C; Jiang H; Iwase R; Milev MP; Almousa HA; McNamara E; Widrick J; Perez C; Ravenscroft G; Sacher M; Cole PA; Carr SA; Gupta VA; | 37432316 BIOLOGY |
| 8 | Vitamin B5, a Coenzyme A precursor, rescues TANGO2 deficiency disease-associated defects in Drosophila and human cells | Asadi P; Milev MP; Saint-Dic D; Gamberi C; Sacher M; | 36502486 BIOLOGY |
| 9 | Biallelic variants in TRAPPC10 cause a microcephalic TRAPPopathy disorder in humans and mice | Rawlins LE; Almousa H; Khan S; Collins SC; Milev MP; Leslie J; Saint-Dic D; Khan V; Hincapie AM; Day JO; McGavin L; Rowley C; Harlalka GV; Vancollie VE; Ahmad W; Lelliott CJ; Gul A; Yalcin B; Crosby AH; Sacher M; Baple EL; | 35298461 BIOLOGY |
| 10 | TRAPPC11-related muscular dystrophy with hypoglycosylation of alpha-dystroglycan in skeletal muscle and brain | Munot P; McCrea N; Torelli S; Manzur A; Sewry C; Chambers D; Feng L; Ala P; Zaharieva I; Ragge N; Roper H; Marton T; Cox P; Milev MP; Liang WC; Maruyama S; Nishino I; Sacher M; Phadke R; Muntoni F; | 34648194 BIOLOGY |
| 11 | Publisher Correction: Characterization of three TRAPPC11 variants suggests a critical role for the extreme carboxy terminus of the protein. | Milev MP; Stanga D; Schänzer A; Nascimento A; Saint-Dic D; Ortez C; Natera-de Benito D; Barrios DG; Colomer J; Badosa C; Jou C; Gallano P; Gonzalez-Quereda L; Töpf A; Johnson K; Straub V; Hahn A; Sacher M; Jimenez-Mallebrera C; | 33173071 BIOLOGY |
| 12 | The phenotype associated with variants in TANGO2 may be explained by a dual role of the protein in ER-to-Golgi transport and at the mitochondria. | Milev MP, Saint-Dic D, Zardoui K, Klopstock T, Law C, Distelmaier F, Sacher M | 32909282 BIOLOGY |
| 13 | A novel homozygous variant in TRAPPC2L results in a neurodevelopmental disorder and disrupts TRAPP complex function. | Al-Deri N, Okur V, Ahimaz P, Milev M, Valivullah Z, Hagen J, Sheng Y, Chung W, Sacher M, Ganapathi M | 32843486 BIOLOGY |
| 14 | TRAPPing a neurological disorder: from yeast to humans. | Lipatova Z, Van Bergen N, Stanga D, Sacher M, Christodoulou J, Segev N | 32116085 BIOLOGY |
| 15 | Deficiencies in vesicular transport mediated by TRAPPC4 are associated with severe syndromic intellectual disability. | Van Bergen NJ, Guo Y, Al-Deri N, Lipatova Z, Stanga D, Zhao S, Murtazina R, Gyurkovska V, Pehlivan D, Mitani T, Gezdirici A, Antony J, Collins F, Willis MJH, Coban Akdemir ZH, Liu P, Punetha J, Hunter JV, Jhangiani SN, Fatih JM, Rosenfeld JA, Posey JE, Gibbs RA, Karaca E, Massey S, Ranasinghe TG, Sleiman P, Troedson C, Lupski JR, Sacher M, Segev N, Hakonarson H, Christodoulou J | 31794024 BIOLOGY |
| 16 | Characterization of three TRAPPC11 variants suggests a critical role for the extreme carboxy terminus of the protein. | Milev MP, Stanga D, Schänzer A, Nascimento A, Saint-Dic D, Ortez C, Benito DN, Barrios DG, Colomer J, Badosa C, Jou C, Gallano P, Gonzalez-Quereda L, Töpf A, Johnson K, Straub V, Hahn A, Sacher M, Jimenez-Mallebrera C | 31575891 BIOLOGY |
| 17 | Mutations in TRAPPC12 Manifest in Progressive Childhood Encephalopathy and Golgi Dysfunction. | Milev MP, Grout ME, Saint-Dic D, Cheng YH, Glass IA, Hale CJ, Hanna DS, Dorschner MO, Prematilake K, Shaag A, Elpeleg O, Sacher M, Doherty D, Edvardson S | 28777934 BIOLOGY |
| 18 | TRAMM/TrappC12 plays a role in chromosome congression, kinetochore stability, and CENP-E recruitment. | Milev MP, Hasaj B, Saint-Dic D, Snounou S, Zhao Q, Sacher M | 25918224 BIOLOGY |
| 19 | TRAPPC11 and GOSR2 mutations associate with hypoglycosylation of α-dystroglycan and muscular dystrophy. | Larson AA, Baker PR, Milev MP, Press CA, Sokol RJ, Cox MO, Lekostaj JK, Stence AA, Bossler AD, Mueller JM, Prematilake K, Tadjo TF, Williams CA, Sacher M, Moore SA | 29855340 BIOLOGY |
| 20 | Bi-allelic mutations in TRAPPC2L result in a neurodevelopmental disorder and have an impact on RAB11 in fibroblasts. | Milev MP, Graziano C, Karall D, Kuper WFE, Al-Deri N, Cordelli DM, Haack TB, Danhauser K, Iuso A, Palombo F, Pippucci T, Prokisch H, Saint-Dic D, Seri M, Stanga D, Cenacchi G, van Gassen KLI, Zschocke J, Fauth C, Mayr JA, Sacher M, van Hasselt PM | 30120216 BIOLOGY |
| 21 | TRAPPopathies: An emerging set of disorders linked to variations in the genes encoding transport protein particle (TRAPP)-associated proteins. | Sacher M, Shahrzad N, Kamel H, Milev MP | 30152084 BIOLOGY |
| 22 | TRAPPC11 functions in autophagy by recruiting ATG2B-WIPI4/WDR45 to preautophagosomal membranes. | Stanga D, Zhao Q, Milev MP, Saint-Dic D, Jimenez-Mallebrera C, Sacher M | 30843302 CONCORDIA |
| Title: | Dynamic regulation of inter-organelle communication by ubiquitylation controls skeletal muscle development and disease onset | ||||
| Authors: | Mansur A, Joseph R, Kim ES, Jean-Beltran PM, Udeshi ND, Pearce C, Jiang H, Iwase R, Milev MP, Almousa HA, McNamara E, Widrick J, Perez C, Ravenscroft G, Sacher M, Cole PA, Carr SA, Gupta VA | ||||
| Link: | https://pubmed.ncbi.nlm.nih.gov/37432316/ | ||||
| DOI: | 10.7554/eLife.81966 | ||||
| Publication: | eLife | ||||
| Keywords: | cell biology; developmental biology; genetic disease; myopathy; skeletal muscle; ubiquitylation; zebrafish; | ||||
| PMID: | 37432316 | Category: | Date Added: | 2023-07-11 | |
| Dept Affiliation: |
BIOLOGY
1 Division of Genetics, Department of Medicine, Brigham and Women's Hospital, Harvard Medical School, Boston, United States. 2 Proteomics Platform, Broad Institute of MIT and Harvard, Cambridge, United States. 3 Department of Pharmacology and Molecular Sciences, Johns Hopkins University School of Medicine, Boston, United States. 4 Department of Biological Chemistry and Molecular Pharmacology, Harvard Medical School, Boston, United States. 5 Department of Biology, Concordia University of Edmonton, Montreal, Canada. 6 Faculty of Health and Medical Sciences, Centre of Medical Research, Harry Perkins Institute of Medical Research, University of Western Australia, Perth, Australia. 7 Division of Genetics, Boston Children's Hospital, Harvard Medical School, Boston, United States. 8 Department of Anesthesiology, Brigham and Women's Hospital, Harvard Medical School, Boston, United States. 9 Department of Anatomy and Cell Biology, McGill University, Montreal, Canada. |
||||
Description: |
Ubiquitin-proteasome system (UPS) dysfunction is associated with the pathology of a wide range of human diseases, including myopathies and muscular atrophy. However, the mechanistic understanding of specific components of the regulation of protein turnover during development and disease progression in skeletal muscle is unclear. Mutations in KLHL40, an E3 ubiquitin ligase cullin3 (CUL3) substrate-specific adapter protein, result in severe congenital nemaline myopathy, but the events that initiate the pathology and the mechanism through which it becomes pervasive remain poorly understood. To characterize the KLHL40-regulated ubiquitin-modified proteome during skeletal muscle development and disease onset, we used global, quantitative mass spectrometry-based ubiquitylome and global proteome analyses of klhl40a mutant zebrafish during disease progression. Global proteomics during skeletal muscle development revealed extensive remodeling of functional modules linked with sarcomere formation, energy, biosynthetic metabolic processes, and vesicle trafficking. Combined analysis of klh40 mutant muscle proteome and ubiquitylome identified thin filament proteins, metabolic enzymes, and ER-Golgi vesicle trafficking pathway proteins regulated by ubiquitylation during muscle development. Our studies identified a role for KLHL40 as a regulator of ER-Golgi anterograde trafficking through ubiquitin-mediated protein degradation of secretion-associated Ras-related GTPase1a (Sar1a). In KLHL40-deficient muscle, defects in ER exit site vesicle formation and downstream transport of extracellular cargo proteins result in structural and functional abnormalities. Our work reveals that the muscle proteome is dynamically fine-tuned by ubiquitylation to regulate skeletal muscle development and uncovers new disease mechanisms for therapeutic development in patients. |
