Eeson Rajendra scite author profile

Human γ-secretase is an intra-membrane protease that cleaves many different substrates. Aberrant cleavage of Notch is implicated in cancer, while abnormalities in cutting amyloid precursor protein lead to Alzheimer's disease. Our previous cryo-EM structure of γ-secretase revealed considerable disorder in its catalytic subunit presenilin. Here, we describe an image classification procedure that characterizes molecular plasticity at the secondary structure level, and apply this method to identify three distinct conformations in our previous sample. In one of these conformations, an additional transmembrane helix is visible that cannot be attributed to the known components of γ-secretase. In addition, we present a γ-secretase structure in complex with the dipeptidic inhibitor N-[N-(3,5-difluorophenacetyl)-L-alanyl]-S-phenylglycine t-butyl ester (DAPT). Our results reveal how conformational mobility in the second and sixth transmembrane helices of presenilin is greatly reduced upon binding of DAPT or the additional helix, and form the basis for a new model of how substrate enters the transmembrane domain.DOI: http://dx.doi.org/10.7554/eLife.11182.001

show abstract

Sampling the conformational space of the catalytic subunit of human γ-secretase

Bai

Rajendra

Yang

et al. 2015

Preprint

150

267

View full text Add to dashboard Cite

17Human γ--secretase is an intra--membrane protease that cleaves many different 18 substrates. Aberrant cleavage of Notch is implicated in cancer, while abnormalities in 19 cutting amyloid precursor protein lead to Alzheimer's disease. Our previous cryo--EM 20 structure of γ--secretase revealed considerable disorder in its catalytic subunit 21 presenilin. Here, we introduce an image classification procedure that characterizes 22 molecular plasticity at the secondary structure level, and apply this method to identify 23 three distinct conformations in our previous sample. In one of these conformations, an 24 additional transmembrane helix is visible that cannot be attributed to the known 25 components of γ--secretase. In addition, we present a γ--secretase structure in complex 26 with the dipeptidic inhibitor N--[N--(3,5--difluorophenacetyl)--L--alanyl]--S--phenylglycine t--27 butyl ester (DAPT). Our results reveal how conformational mobility in the second and 28 sixth transmembrane helices of presenilin is greatly reduced upon binding of DAPT or 29 the additional helix, and form the basis for a new model of how substrate enters the 30 transmembrane domain.

show abstract

Scc2 Is a Potent Activator of Cohesin’s ATPase that Promotes Loading by Binding Scc1 without Pds5

et al. 2018

View full text Add to dashboard Cite

SummaryCohesin organizes DNA into chromatids, regulates enhancer-promoter interactions, and confers sister chromatid cohesion. Its association with chromosomes is regulated by hook-shaped HEAT repeat proteins that bind Scc1, namely Scc3, Pds5, and Scc2. Unlike Pds5, Scc2 is not a stable cohesin constituent but, as shown here, transiently replaces Pds5. Scc1 mutations that compromise its interaction with Scc2 adversely affect cohesin’s ATPase activity and loading. Moreover, Scc2 mutations that alter how the ATPase responds to DNA abolish loading despite cohesin’s initial association with loading sites. Lastly, Scc2 mutations that permit loading in the absence of Scc4 increase Scc2’s association with chromosomal cohesin and reduce that of Pds5. We suggest that cohesin switches between two states: one with Pds5 bound that is unable to hydrolyze ATP efficiently but is capable of release from chromosomes and another in which Scc2 replaces Pds5 and stimulates ATP hydrolysis necessary for loading and translocation from loading sites.

show abstract

Polθ inhibitors elicit BRCA-gene synthetic lethality and target PARP inhibitor resistance

Zatreanu

Robinson²,

Alkhatib³

et al. 2021

Nat Commun

201

217

View full text Add to dashboard Cite

To identify approaches to target DNA repair vulnerabilities in cancer, we discovered nanomolar potent, selective, low molecular weight (MW), allosteric inhibitors of the polymerase function of DNA polymerase Polθ, including ART558. ART558 inhibits the major Polθ-mediated DNA repair process, Theta-Mediated End Joining, without targeting Non-Homologous End Joining. In addition, ART558 elicits DNA damage and synthetic lethality in BRCA1- or BRCA2-mutant tumour cells and enhances the effects of a PARP inhibitor. Genetic perturbation screening revealed that defects in the 53BP1/Shieldin complex, which cause PARP inhibitor resistance, result in in vitro and in vivo sensitivity to small molecule Polθ polymerase inhibitors. Mechanistically, ART558 increases biomarkers of single-stranded DNA and synthetic lethality in 53BP1-defective cells whilst the inhibition of DNA nucleases that promote end-resection reversed these effects, implicating these in the synthetic lethal mechanism-of-action. Taken together, these observations describe a drug class that elicits BRCA-gene synthetic lethality and PARP inhibitor synergy, as well as targeting a biomarker-defined mechanism of PARPi-resistance.

show abstract

An essential role for Cdk1 in S phase control is revealed via chemical genetics in vertebrate cells

et al. 2007

View full text Add to dashboard Cite

In vertebrates Cdk1 is required to initiate mitosis; however, any functionality of this kinase during S phase remains unclear. To investigate this, we generated chicken DT40 mutants, in which an analog-sensitive mutant cdk1 as replaces the endogenous Cdk1, allowing us to specifically inactivate Cdk1 using bulky ATP analogs. In cells that also lack Cdk2, we find that Cdk1 activity is essential for DNA replication initiation and centrosome duplication. The presence of a single Cdk2 allele renders S phase progression independent of Cdk1, which suggests a complete overlap of these kinases in S phase control. Moreover, we find that Cdk1 inhibition did not induce re-licensing of replication origins in G2 phase. Conversely, inhibition during mitosis of Cdk1 causes rapid activation of endoreplication, depending on proteolysis of the licensing inhibitor Geminin. This study demonstrates essential functions of Cdk1 in the control of S phase, and exemplifies a chemical genetics approach to target cyclin-dependent kinases in vertebrate cells.

show abstract

scite is a Brooklyn-based organization that helps researchers better discover and understand research articles through Smart Citations–citations that display the context of the citation and describe whether the article provides supporting or contrasting evidence. scite is used by students and researchers from around the world and is funded in part by the National Science Foundation and the National Institute on Drug Abuse of the National Institutes of Health.

Contact Info

hi@scite.ai

10624 S. Eastern Ave., Ste. A-614

Henderson, NV 89052, USA

Blog Terms and Conditions API Terms Privacy Policy Contact Cookie Preferences Do Not Sell or Share My Personal Information

Made with 💙 for researchers

Part of the Research Solutions Family.

Eeson Rajendra

Sampling the conformational space of the catalytic subunit of human γ-secretase

Sampling the conformational space of the catalytic subunit of human γ-secretase

Scc2 Is a Potent Activator of Cohesin’s ATPase that Promotes Loading by Binding Scc1 without Pds5

Polθ inhibitors elicit BRCA-gene synthetic lethality and target PARP inhibitor resistance

An essential role for Cdk1 in S phase control is revealed via chemical genetics in vertebrate cells

Contact Info

Product

Resources

About