Zoltan Sandor scite author profile

The retromer is an evolutionarily conserved coat complex that consists of Vps26, Vps29, Vps35 and a heterodimer of sorting nexin (Snx) proteins in yeast. Retromer mediates the recycling of transmembrane proteins from endosomes to the trans-Golgi network, including receptors that are essential for the delivery of hydrolytic enzymes to lysosomes.Besides its function in lysosomal enzyme receptor recycling, involvement of retromer has also been proposed in a variety of vesicular trafficking events, including early steps of autophagy and endocytosis. Here we show that the late stages of autophagy and endocytosis are impaired in Vps26 and Vps35 deficient Drosophila larval fat body cells, but formation of autophagosomes and endosomes is not compromised. Accumulation of aberrant autolysosomes and amphisomes in the absence of retromer function appears to be the consequence of decreased degradative capacity, as they contain undigested cytoplasmic material.Accordingly, we show that retromer is required for proper cathepsin L trafficking mainly independent of LERP, the Drosophila homolog of the cation-independent mannose 6-phosphate receptor. Finally, we find that Snx3 and Snx6 are also required for proper autolysosomal degradation in Drosophila larval fat body cells.

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Selectable System for Monitoring the Instability of CTG/CAG Triplet Repeats in Mammalian Cells

Gorbunova

Seluanov

Dion

et al. 2003

Molecular and Cellular Biology

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Despite substantial progress in understanding the mechanism by which expanded CTG/CAG trinucleotide repeats cause neurodegenerative diseases, little is known about the basis for repeat instability itself. By taking advantage of a novel phenomenon, we have developed a selectable assay to detect contractions of CTG/CAG triplets. When inserted into an intron in the APRT gene or the HPRT minigene, long tracts of CTG/CAG repeats (more than about 33 repeat units) are efficiently incorporated into mRNA as a new exon, thereby rendering the encoded protein nonfunctional, whereas short repeat tracts do not affect the phenotype. Therefore, contractions of long repeats can be monitored in large cell populations, by selecting for HPRT ؉ or APRT ؉ clones. Using this selectable system, we determined the frequency of spontaneous contractions and showed that treatments with DNA-damaging agents stimulate repeat contractions. The selectable system that we have developed provides a versatile tool for the analysis of CTG/CAG repeat instability in mammalian cells. We also discuss how the effect of long CTG/CAG repeat tracts on splicing may contribute to the progression of polyglutamine diseases.

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Repair of triple helix directed psoralen adducts in human cells

Sandor¹,

Bredberg²

1994

Nucl Acids Res

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Triple helix forming oligonucleotides can direct DNA damaging agents at specific sites in an intact double helix. In our study, triple helix formation was demonstrated in a SV40 based shuttle vector treated with psoralen linked to a 22-mer purine rich oligonucleotide. UVA irradiation caused a covalent linkage of the oligonucleotide through the psoralen to the mutational supF marker gene of the plasmid. After passage in the Jurkat human cell line the recovered vector was analysed in an indicator bacterial strain and mutants were collected. The presence of adducts in the target sequence did not reduce the yield of replicated progeny vector molecules, indicating repair of triple helix associated monoadducts and cross-links. Mutations were highly targeted to a six nucleotide long region of the target sequence. The number of target sequence mutants obtained after triple helix directed psoralen treatment was approximately 160 times higher than with free psoralen. A further investigation of the exact mechanism of the mutational process could make triple helix directed mutagenesis a more useful tool in gene therapy, antiviral therapy, and in studies on DNA repair and genome organisation.

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Triple helix directed psoralen adducts induce a low frequency of recombination in an SV40 shuttle vector

Sandor

Bredberg

1995

Biochimica et Biophysica Acta (BBA) - Gene Structure and Expres

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Distinct requirements for Ku in N nucleotide addition at V(D)J- and non-V(D)J-generated double-strand breaks

Sandor

Calicchio²,

Sargent³

et al. 2004

Nucleic Acids Research

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Loss or addition of nucleotides at junctions generated by V(D)J recombination significantly expands the antigen-receptor repertoire. Addition of nontemplated (N) nucleotides is carried out by terminal deoxynucleotidyl transferase (TdT), whose only known physiological role is to create diversity at V(D)J junctions during lymphocyte development. Although purified TdT can act at free DNA ends, its ability to add nucleotides (i.e. form N regions) at coding joints appears to depend on the nonhomologous end-joining factor Ku80. Because the DNA ends generated during V(D)J rearrangements remain associated with the RAG proteins after cleavage, TdT might be targeted for N region addition through interactions with RAG proteins or with Ku80 during remodeling of the post-cleavage complex. Such regulated access would help to prevent TdT from acting at other types of broken ends and degrading the fidelity of end joining. To test this hypothesis, we measured TdT's ability to add nucleotides to endonuclease-induced chromosomal and extrachromosomal breaks. In both cases TdT added nucleotides efficiently to the cleaved DNA ends. Strikingly, the frequency of N regions at non-V(D)J-generated ends was not dependent on Ku80. Thus our results suggest that Ku80 is required to allow TdT access to RAG post-cleavage complexes, providing support for the hypothesis that Ku is involved in disassembling or remodeling the post-cleavage complex. We also found that N regions were abnormally long in the absence of Ku80, indicating that Ku80 may regulate TdT's activity at DNA ends in vivo.

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Zoltan Sandor

Retromer Ensures the Degradation of Autophagic Cargo by Maintaining Lysosome Function in Drosophila

Selectable System for Monitoring the Instability of CTG/CAG Triplet Repeats in Mammalian Cells

Repair of triple helix directed psoralen adducts in human cells

Triple helix directed psoralen adducts induce a low frequency of recombination in an SV40 shuttle vector

Distinct requirements for Ku in N nucleotide addition at V(D)J- and non-V(D)J-generated double-strand breaks

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