Elada Isakov scite author profile

SummaryIn the protozoan parasite Entamoeba histolytica, 5-methylcytosine (m5C) was found predominantly in repetitive elements. Its formation is catalysed by Ehmeth, a DNA methyltransferase that belongs to the Dnmt2 subfamily. Here we describe a 32 kDa nuclear protein that binds in vitro with higher affinity to the methylated form of a DNA encoding a reverse transcriptase of an autonomous non-long-terminal repeat retrotransposon (RT LINE) compared with the non-methylated RT LINE. This protein, named E. histolytica-methylated LINE binding protein (EhMLBP), was purified from E. histolytica nuclear lysate, identified by mass spectrometry, and its corresponding gene was cloned. EhMLBP corresponds to a gene of unknown function that shares strong homology with putative proteins present in Entamoeba dispar and Entamoeba invadens. In contrast, the homology dropped dramatically when nonEntamoebidae sequences were considered and only a weak sequence identity was found with Trypanosoma and several prokaryotic histone H1. Recombinant EhMLBP showed the same binding preference for methylated RT LINE as the endogenous EhMLBP. Deletion mapping analysis localized the DNA binding region at the C-terminal part of the protein. This region is sufficient to assure the binding to methylated RT LINE with high affinity. Western blot and immunofluorescence microscopy, using an antibody raised against EhMLBP, showed that it has a nuclear localization. Chromatin immunoprecipitation (ChIP) confirmed that EhMLBP interacts with RT LINE in vivo. Finally, we showed that EhMLBP can also bind rDNA episome, a DNA that is methylated in the parasite. This suggests that EhMLBP may serve as a sensor of methylated repetitive DNA. This is the first report of a DNA-methylated binding activity in protozoa.

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Stalled Proteasomes Are Directly Relieved by P97 Recruitment

Isakov

Stanhill

2011

Journal of Biological Chemistry

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The 26 S proteasome is the eukaryotic protease responsible for the degradation of most cellular proteins. As such it accommodates the ability to function under diverse conditions that the cell may encounter. This function is supported by various adaptors that modulate various aspects in protein degradation, these include regulation of substrate delivery, deubiquitination, unfolding, and 20 S gate dilation. Here we show a new functional complex between the P97 and the proteasome that is assembled in response to proteasomal impairment. This entails P97 binding to the 26 S proteasome via the 19 S particle thereby forming an additional hexameric ATPase ring to relieve repression. P97-bound proteasomes showed selective binding toward the Npl4-ufd1 P97 co-factors, indicating a unique cellular role for P97 binding to proteasomes. P97-bound proteasomes display enhanced activity, showing a relief in proteolysis impairment. Our findings place P97 directly in non-ERAD proteasomal functions and establish a new checkpoint in UPS impairment. The ability to modulate proteasome activity and properly respond to protein misfolding, is of great importance in cellular regulation.

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Trichostatin A regulates peroxiredoxin expression and virulence of the parasite Entamoeba histolytica☆

Isakov

Siman‐Tov

Weber

et al. 2008

Molecular and Biochemical Parasitology

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Elada Isakov

Sensing DNA methylation in the protozoan parasite Entamoeba histolytica

Stalled Proteasomes Are Directly Relieved by P97 Recruitment

Trichostatin A regulates peroxiredoxin expression and virulence of the parasite Entamoeba histolytica☆

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