Pratibha Siwach scite author profile

Lafora disease (LD), a progressive form of inherited epilepsy, is associated with widespread neurodegeneration and the formation of polyglucosan bodies in the neurons. Laforin, a protein phosphatase, and malin, an E3 ubiquitin ligase, are two of the proteins that are defective in LD. We have shown recently that laforin and malin (referred together as LD proteins) are recruited to aggresome upon proteasomal blockade, possibly to clear misfolded proteins through the ubiquitin-proteasome system (UPS). Here we test this possibility using a variety of cytotoxic misfolded proteins, including the expanded polyglutamine protein, as potential substrates. Laforin and malin, together with Hsp70 as a functional complex, suppress the cellular toxicity of misfolded proteins, and all the three members of this complex are required for this function. Laforin and malin interact with misfolded proteins and promote their degradation through the UPS. LD proteins are recruited to the polyglutamine aggregates and reduce the frequency of aggregate-positive cells. Taken together, our results suggest that the malin-laforin complex is a novel player in the neuronal response to misfolded proteins and could be potential therapeutic targets for neurodegenerative disorders associated with cytotoxic proteins.

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Genomic and Evolutionary Insights into Genes Encoding Proteins with Single Amino Acid Repeats

Siwach

Pophaly

Ganesh

2006

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Mutations causing expansion of amino acid repeats are responsible for 19 hereditary disorders. Repeats in several other proteins also show length variations. These observations prompted us to identify single amino acid repeat-containing proteins (SARPs) in humans and to understand their functional and evolutionary significance. We identified 8812 SARPs containing 17 146 repeat domains, each harboring 4 or more residues. In all, 5% of SARPs (471) showed repeat length variations, and nearly 84% of them (394) have repeats of 10 residues or less. We find that SARPs are involved in functions that require formation of multiprotein complexes. Nearly 78% (6859) of the SARPs did not find a paralogue in the human proteome, and such proteins are considered as orphan SARPs. Orphan SARPs show longer repeat stretches, longer peptide length, and lower expression levels as compared with SARPs belonging to protein family. Because the intensity of gene expression is known to relate inversely with the rate of protein sequence evolution, our results suggest that the orphan SARPs evolve faster than the familial forms and therefore are under a weaker selection pressure. We also find that while GC-rich codons are favored for coding the repeat tracts of SARPs, specific codons and not nucleotide motifs per se are selected, suggesting functional constraints placed on the usage of codons. One of the constraints could be the mRNA stability as clustering of rare codons is known to destabilize the transcripts and rare codons are not favored for coding repeat tracts. Genes encoding polymorphic SARPs show preferential localization toward the telomeric segments. Further, the sex-specific recombination rates of the chromosomal locus strongly correlate with the parental gender that influence the repeat instability in disorder caused by dynamic mutation. Therefore, instability associated with repeats might be driven by processes that are specific to sperm or oocyte development, and the recombination frequency might play a positive role in this process.

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Tandem repeats in human disorders: mechanisms and evolution

Siwach¹

2008

Front Biosci

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One of the most compelling reasons for the study of repetitive DNA sequence in the human genome has been the instability of simple repeat sequences associating with a growing and an interesting group of disorders affecting the neurological, neuromuscular or developmental processes. As a result, the molecular processes that underlie this unique form of mutation and the pathological pathways that lead to the disorders are being uncovered rapidly and are being intensively investigated. Genes with expanded repeats exhibit either loss-of-function or gain-of-function effect at the protein and/or RNA level. In this review, we aim to provide an overview of the recent advances in molecular pathology of disorders associated with heritable changes in the length of the repeat sequences, and examine how dynamism in these repeats is regulated.

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Spatial positions of homopolymeric repeats in the human proteome and their effect on cellular toxicity

Siwach

Sengupta

Parihar

et al. 2009

Biochemical and Biophysical Research Communications

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Getting stress out of stressed‐out stress granules

Siwach

Kaganovich

2017

The EMBO Journal

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Amyotrophic lateral sclerosis (ALS) pathology is linked to the aberrant aggregation of specific proteins, including TDP‐43, FUS, and SOD1, but it is not clear why these aggregation events cause ALS. In this issue of The EMBO Journal, Mateju et al (2017) report a direct link between misfolded proteins accumulating in stress granules and the phase transition of these stress granules from liquid to solid. This discovery provides a model connecting protein aggregation to stress granule dysfunction.

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Pratibha Siwach

The malin–laforin complex suppresses the cellular toxicity of misfolded proteins by promoting their degradation through the ubiquitin–proteasome system

Genomic and Evolutionary Insights into Genes Encoding Proteins with Single Amino Acid Repeats

Tandem repeats in human disorders: mechanisms and evolution

Spatial positions of homopolymeric repeats in the human proteome and their effect on cellular toxicity

Getting stress out of stressed‐out stress granules

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