The yeast Batten disease orthologue Btn1 controls endosome–Golgi retrograde transport via SNARE assembly

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Abstract

Btn1 controls endosome–Golgi retrograde sorting by regulating SNARE phosphorylation and assembly.

Abstract

The human Batten disease gene CLN3 and yeast orthologue BTN1 encode proteins of unclear function. We show that the loss of BTN1 phenocopies that of BTN2, which encodes a retromer accessory protein involved in the retrieval of specific cargo from late endosomes (LEs) to the Golgi. However, Btn1 localizes to Golgi and regulates soluble N-ethyl-maleimide sensitive fusion protein attachment protein receptor (SNARE) function to control retrograde transport. Specifically, BTN1 overexpression and deletion have opposing effects on phosphorylation of the Sed5 target membrane SNARE, on Golgi SNARE assembly, and on Golgi integrity. Although Btn1 does not interact physically with SNAREs, it regulates Sed5 phosphorylation by modulating Yck3, a palmitoylated endosomal kinase. This may involve modification of the Yck3 lipid anchor, as substitution with a transmembrane domain suppresses the deletion of BTN1 and restores trafficking. Correspondingly, deletion of YCK3 mimics that of BTN1 or BTN2 with respect to LE–Golgi retrieval. Thus, Btn1 controls retrograde sorting by regulating SNARE phosphorylation and assembly, a process that may be adversely affected in Batten Disease patients.

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Mutations in the palmitoyl protein thioesterase gene causing infantile neuronal ceroid lipofuscinosis.

P Santavuori, Christopher Hofmann, Robert Camp … (1995)

Neuronal ceroid lipofuscinoses (NCL) represent a group of common progressive encephalopathies of children which have a global incidence of 1 in 12,500. These severe brain diseases are divided into three autosomal recessive subtypes, assigned to different chromosomal loci. The infantile subtype of NCL (INCL), linked to chromosome 1p32, is characterized by early visual loss and rapidly progressing mental deterioration, resulting in a flat electroencephalogram by 3 years of age; death occurs at 8 to 11 years, and characteristic storage bodies are found in brain and other tissues at autopsy. The molecular pathogenesis underlying the selective loss of neurons of neocortical origin has remained unknown. Here we report the identification, by positional candidate methods, of defects in the palmitoyl-protein thioesterase gene in all 42 Finnish INCL patients and several non-Finnish patients. The most common mutation results in intracellular accumulation of the polypeptide and undetectable enzyme activity in the brain of patients.

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Correlations between genotype, ultrastructural morphology and clinical phenotype in the neuronal ceroid lipofuscinoses.

Sara E. Mole, Ruth Williams, Hans Goebel (2005)

The neuronal ceroid lipofuscinoses (NCLs) are a group of severe neurodegenerative diseases with onset usually in childhood and characterised by the intracellular accumulation of autofluorescent storage material. Within the last decade, mutations that cause NCL have been found in six human genes (CLN1, CLN2, CLN3, CLN5, CLN6 and CLN8). Mutations in two additional genes cause disease in animal models that share features with NCL-CTSD in sheep and mice and PPT2 in mice. Approximately 160 NCL disease-causing mutations have now been described (listed and fully cited in the NCL Mutation Database, http://www.ucl.ac.uk/ncl/ ). Most mutations result in a classic morphology and disease phenotype, but some mutations are associated with disease that is of later onset, less severe or protracted in its course, or with atypical morphology. Seven common mutations exist, some having a worldwide distribution and others associated with families originating from specific geographical regions. This review attempts to correlate the gene, disease-causing mutation, morphology and clinical phenotype for each type of NCL.

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Retromer and the sorting nexins Snx4/41/42 mediate distinct retrieval pathways from yeast endosomes.

Hugh Pelham, C. W. Black, Andrew Lewis … (2003)

The endocytic pathway in yeast leads to the vacuole, but resident proteins of the late Golgi, and some endocytosed proteins such as the exocytic SNARE Snc1p, are retrieved specifically to the Golgi. Retrieval can occur from both a late pre-vacuolar compartment and early or 'post-Golgi' endosomes. We show that the endosomal SNARE Pep12p, and a mutant version that reaches the cell surface and is endocytosed, are retrieved from pre-vacuolar endosomes. As with Golgi proteins, this requires the sorting nexin Grd19p and components of the retromer coat, supporting the view that endosomal and Golgi residents both cycle continuously between the exocytic and endocytic pathways. In contrast, retrieval of Snc1p from post-Golgi endosomes requires the sorting nexin Snx4p, to which Snc1p can be cross-linked. Snx4p binds to Snx41p/ydr425w and to Snx42p/ydl113c, both of which are also required for efficient Snc1p sorting. Our findings suggest a general role for yeast sorting nexins in protein retrieval, rather than degradation, and indicate that different sorting nexins operate in different classes of endosomes.

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Journal

Journal ID (nlm-ta): J Cell Biol

Journal ID (iso-abbrev): J. Cell Biol

Journal ID (hwp): jcb

Title: The Journal of Cell Biology

Publisher: The Rockefeller University Press

ISSN (Print): 0021-9525

ISSN (Electronic): 1540-8140

Publication date (Print): 17 October 2011

Volume: 195

Issue: 2

Pages: 203-215

Affiliations

[1 ]Department of Molecular Genetics, Weizmann Institute of Science, Rehovot 76100, Israel

[2 ]University of Osnabrück, Fachbereich Biologie/Chemie, 49076 Osnabrück, Germany

Author notes

Correspondence to Jeffrey E. Gerst: jeffrey.gerst@ 123456weizmann.ac.il

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Publisher ID: 201102115

DOI: 10.1083/jcb.201102115

PMC ID: 3198160

PubMed ID: 21987636

SO-VID: bd8f47ab-9a53-45bd-86fd-0d68e214a669

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The yeast Batten disease orthologue Btn1 controls endosome–Golgi retrograde transport via SNARE assembly

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GLUT4 biology

Most cited references 57

Mutations in the palmitoyl protein thioesterase gene causing infantile neuronal ceroid lipofuscinosis.

Correlations between genotype, ultrastructural morphology and clinical phenotype in the neuronal ceroid lipofuscinoses.

Retromer and the sorting nexins Snx4/41/42 mediate distinct retrieval pathways from yeast endosomes.

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