Literature DB >> 31509666

Serine and Lipid Metabolism in Macular Disease and Peripheral Neuropathy.

Marin L Gantner1, Kevin Eade1, Martina Wallace1, Michal K Handzlik1, Regis Fallon1, Jennifer Trombley1, Roberto Bonelli1, Sarah Giles1, Sarah Harkins-Perry1, Tjebo F C Heeren1, Lydia Sauer1, Yoichiro Ideguchi1, Michelle Baldini1, Lea Scheppke1, Michael I Dorrell1, Maki Kitano1, Barbara J Hart1, Carolyn Cai1, Takayuki Nagasaki1, Mehmet G Badur1, Mali Okada1, Sasha M Woods1, Catherine Egan1, Mark Gillies1, Robyn Guymer1, Florian Eichler1, Melanie Bahlo1, Marcus Fruttiger1, Rando Allikmets1, Paul S Bernstein1, Christian M Metallo1, Martin Friedlander1.   

Abstract

BACKGROUND: Identifying mechanisms of diseases with complex inheritance patterns, such as macular telangiectasia type 2, is challenging. A link between macular telangiectasia type 2 and altered serine metabolism has been established previously.
METHODS: Through exome sequence analysis of a patient with macular telangiectasia type 2 and his family members, we identified a variant in SPTLC1 encoding a subunit of serine palmitoyltransferase (SPT). Because mutations affecting SPT are known to cause hereditary sensory and autonomic neuropathy type 1 (HSAN1), we examined 10 additional persons with HSAN1 for ophthalmologic disease. We assayed serum amino acid and sphingoid base levels, including levels of deoxysphingolipids, in patients who had macular telangiectasia type 2 but did not have HSAN1 or pathogenic variants affecting SPT. We characterized mice with low serine levels and tested the effects of deoxysphingolipids on human retinal organoids.
RESULTS: Two variants known to cause HSAN1 were identified as causal for macular telangiectasia type 2: of 11 patients with HSAN1, 9 also had macular telangiectasia type 2. Circulating deoxysphingolipid levels were 84.2% higher among 125 patients with macular telangiectasia type 2 who did not have pathogenic variants affecting SPT than among 94 unaffected controls. Deoxysphingolipid levels were negatively correlated with serine levels, which were 20.6% lower than among controls. Reduction of serine levels in mice led to increases in levels of retinal deoxysphingolipids and compromised visual function. Deoxysphingolipids caused photoreceptor-cell death in retinal organoids, but not in the presence of regulators of lipid metabolism.
CONCLUSIONS: Elevated levels of atypical deoxysphingolipids, caused by variant SPTLC1 or SPTLC2 or by low serine levels, were risk factors for macular telangiectasia type 2, as well as for peripheral neuropathy. (Funded by the Lowy Medical Research Institute and others.).
Copyright © 2019 Massachusetts Medical Society.

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Year:  2019        PMID: 31509666      PMCID: PMC7685488          DOI: 10.1056/NEJMoa1815111

Source DB:  PubMed          Journal:  N Engl J Med        ISSN: 0028-4793            Impact factor:   91.245


  37 in total

Review 1.  1-Deoxysphingolipids.

Authors:  M A Lone; T Santos; I Alecu; L C Silva; T Hornemann
Journal:  Biochim Biophys Acta Mol Cell Biol Lipids       Date:  2019-01-06       Impact factor: 4.698

2.  Genetic Penetrance of Macular Telangiectasia Type 2.

Authors:  Cecinio C Ronquillo; Kimberley Wegner; Charles M Calvo; Paul S Bernstein
Journal:  JAMA Ophthalmol       Date:  2018-10-01       Impact factor: 7.389

3.  1-Deoxysphingolipid-induced neurotoxicity involves N-methyl-d-aspartate receptor signaling.

Authors:  Tanja Güntert; Pascal Hänggi; Alaa Othman; Saranya Suriyanarayanan; Sabrina Sonda; Richard A Zuellig; Thorsten Hornemann; Omolara O Ogunshola
Journal:  Neuropharmacology       Date:  2016-03-23       Impact factor: 5.250

4.  LONGITUDINAL CORRELATION OF ELLIPSOID ZONE LOSS AND FUNCTIONAL LOSS IN MACULAR TELANGIECTASIA TYPE 2.

Authors:  Tjebo F C Heeren; Diána Kitka; Daniela Florea; Traci E Clemons; Emily Y Chew; Alan C Bird; Daniel Pauleikhoff; Peter Charbel Issa; Frank G Holz; Tunde Peto
Journal:  Retina       Date:  2018-01       Impact factor: 4.256

5.  Deoxysphingoid bases as plasma markers in diabetes mellitus.

Authors:  Mariana Bertea; Markus F Rütti; Alaa Othman; Jaqueline Marti-Jaun; Martin Hersberger; Arnold von Eckardstein; Thorsten Hornemann
Journal:  Lipids Health Dis       Date:  2010-08-16       Impact factor: 3.876

6.  Ceramide synthase inhibition by fumonisin B1 causes accumulation of 1-deoxysphinganine: a novel category of bioactive 1-deoxysphingoid bases and 1-deoxydihydroceramides biosynthesized by mammalian cell lines and animals.

Authors:  Nicholas C Zitomer; Trevor Mitchell; Kenneth A Voss; Genevieve S Bondy; Sarah T Pruett; Ethel C Garnier-Amblard; Lanny S Liebeskind; Hyejung Park; Elaine Wang; M Cameron Sullards; Alfred H Merrill; Ronald T Riley
Journal:  J Biol Chem       Date:  2008-12-18       Impact factor: 5.157

7.  Fenofibrate lowers atypical sphingolipids in plasma of dyslipidemic patients: A novel approach for treating diabetic neuropathy?

Authors:  Alaa Othman; Renee Benghozi; Irina Alecu; Yu Wei; Eric Niesor; Arnold von Eckardstein; Thorsten Hornemann
Journal:  J Clin Lipidol       Date:  2015-04-04       Impact factor: 4.766

8.  Fluorescence Lifetime Imaging Ophthalmoscopy: A Novel Way to Assess Macular Telangiectasia Type 2.

Authors:  Lydia Sauer; Rebekah H Gensure; Martin Hammer; Paul S Bernstein
Journal:  Ophthalmol Retina       Date:  2017-12-08

9.  Mutations in the SPTLC2 subunit of serine palmitoyltransferase cause hereditary sensory and autonomic neuropathy type I.

Authors:  Annelies Rotthier; Michaela Auer-Grumbach; Katrien Janssens; Jonathan Baets; Anke Penno; Leonardo Almeida-Souza; Kim Van Hoof; An Jacobs; Els De Vriendt; Beate Schlotter-Weigel; Wolfgang Löscher; Petr Vondráček; Pavel Seeman; Peter De Jonghe; Patrick Van Dijck; Albena Jordanova; Thorsten Hornemann; Vincent Timmerman
Journal:  Am J Hum Genet       Date:  2010-10-08       Impact factor: 11.025

10.  Identification of a potential susceptibility locus for macular telangiectasia type 2.

Authors:  Nancy L Parmalee; Carl Schubert; Maria Figueroa; Alan C Bird; Tunde Peto; Mark C Gillies; Paul S Bernstein; Krzysztof Kiryluk; Joseph D Terwilliger; Rando Allikmets
Journal:  PLoS One       Date:  2012-08-31       Impact factor: 3.752
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  50 in total

1.  A yeast-based complementation assay elucidates the functional impact of 200 missense variants in human PSAT1.

Authors:  Amy Sirr; Russell S Lo; Gareth A Cromie; Adrian C Scott; Julee Ashmead; Mirutse Heyesus; Aimée M Dudley
Journal:  J Inherit Metab Dis       Date:  2020-02-27       Impact factor: 4.982

2.  A connectomics approach to understanding a retinal disease.

Authors:  Charles L Zucker; Paul S Bernstein; Richard L Schalek; Jeff W Lichtman; John E Dowling
Journal:  Proc Natl Acad Sci U S A       Date:  2020-07-22       Impact factor: 11.205

3.  Serine Catabolism Feeds NADH when Respiration Is Impaired.

Authors:  Lifeng Yang; Juan Carlos Garcia Canaveras; Zihong Chen; Lin Wang; Lingfan Liang; Cholsoon Jang; Johannes A Mayr; Zhaoyue Zhang; Jonathan M Ghergurovich; Le Zhan; Shilpy Joshi; Zhixian Hu; Melanie R McReynolds; Xiaoyang Su; Eileen White; Raphael J Morscher; Joshua D Rabinowitz
Journal:  Cell Metab       Date:  2020-03-17       Impact factor: 27.287

4.  Neurons Release Serine to Support mRNA Translation in Pancreatic Cancer.

Authors:  Robert S Banh; Douglas E Biancur; Keisuke Yamamoto; Albert S W Sohn; Beth Walters; Miljan Kuljanin; Ajami Gikandi; Huamin Wang; Joseph D Mancias; Robert J Schneider; Michael E Pacold; Alec C Kimmelman
Journal:  Cell       Date:  2020-11-02       Impact factor: 41.582

Review 5.  Imaging endpoints for clinical trials in MacTel type 2.

Authors:  Daniel Pauleikhoff; Laurenz Pauleikhoff; Emily Y Chew
Journal:  Eye (Lond)       Date:  2021-08-13       Impact factor: 3.775

6.  Outcome of Off-Label AREDS 2 Supplementation for the Treatment of Macular Degeneration in Non-Proliferative Idiopathic Type 2 Macular Telangiectasia.

Authors:  Tyler A Berger; Matthew W Manry; Lucas B Lindsell; James M Osher; Daniel M Miller; Robert E Foster; Christopher D Riemann; Michael R Petersen; Robert A Sisk
Journal:  Clin Ophthalmol       Date:  2021-03-15

7.  Serine biosynthesis defect due to haploinsufficiency of PHGDH causes retinal disease.

Authors:  Kevin Eade; Marin L Gantner; Joseph A Hostyk; Takayuki Nagasaki; Christian M Metallo; Martin Friedlander; Rando Allikmets; Sarah Giles; Regis Fallon; Sarah Harkins-Perry; Michelle Baldini; Esther W Lim; Lea Scheppke; Michael I Dorrell; Carolyn Cai; Evan H Baugh; Charles J Wolock; Martina Wallace; Rebecca B Berlow; David B Goldstein
Journal:  Nat Metab       Date:  2021-03-22

8.  Altered plasma serine and 1-deoxydihydroceramide profiles are associated with diabetic neuropathy in type 2 diabetes and obesity.

Authors:  V Fridman; S Zarini; S Sillau; K Harrison; B C Bergman; E L Feldman; J E B Reusch; B C Callaghan
Journal:  J Diabetes Complications       Date:  2021-01-09       Impact factor: 2.852

Review 9.  Fluorescence lifetime imaging ophthalmoscopy: autofluorescence imaging and beyond.

Authors:  Lydia Sauer; Alexandra S Vitale; Natalie K Modersitzki; Paul S Bernstein
Journal:  Eye (Lond)       Date:  2020-12-02       Impact factor: 3.775

Review 10.  Retina Metabolism and Metabolism in the Pigmented Epithelium: A Busy Intersection.

Authors:  James B Hurley
Journal:  Annu Rev Vis Sci       Date:  2021-06-08       Impact factor: 6.422
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