Development of a versatile HPLC-based method to evaluate the activation status of small GTPases

Autor: Meguri Ohta, Kenji Kontani, Makoto Araki, Kaho Yoshimoto, Toshiaki Katada
Rok vydání: 2021
Předmět:
dox
doxycycline
GTPase-activating protein
Cytoskeleton organization
Mutation
Missense
tuberous sclerosis complex
GTPase
Biochemistry
RHEB
Ras homolog enriched in brain
Humans
Small GTPase
HRAS
high-performance liquid chromatography
Molecular Biology
Chromatography
High Pressure Liquid
mammalian target of rapamycin
GDI
guanine-nucleotide dissociation inhibitor
S6K
S6 kinase
biology
RHEB
IP-RP-HPLC
ion-pair reversed-phase HPLC
Chemistry
Mental Disorders
Cell Biology
TBA-B
tetrabutylammonium bromide
Cell biology
Enzyme Activation
HEK293 Cells
Amino Acid Substitution
small GTPase
mTORC1
mechanistic target of rapamycin complex 1
biology.protein
BSA
bovine serum albumin
Ras Homolog Enriched in Brain Protein
Signal transduction
TSC2
GAP
GTPase-activating proteins
Ras protein
signal transduction
Research Article
HeLa Cells
Zdroj: The Journal of Biological Chemistry
ISSN: 0021-9258
DOI: 10.1016/j.jbc.2021.101428
Popis: Small GTPases cycle between an inactive GDP-bound and an active GTP-bound state to control various cellular events, such as cell proliferation, cytoskeleton organization, and membrane trafficking. Clarifying the guanine nucleotide-bound states of small GTPases is vital for understanding the regulation of small GTPase functions and the subsequent cellular responses. Although several methods have been developed to analyze small GTPase activities, our knowledge of the activities for many small GTPases is limited, partly because of the lack of versatile methods to estimate small GTPase activity without unique probes and specialized equipment. In the present study, we developed a versatile and straightforward HPLC-based assay to analyze the activation status of small GTPases by directly quantifying the amounts of guanine nucleotides bound to them. This assay was validated by analyzing the RAS-subfamily GTPases, including HRAS, which showed that the ratios of GTP-bound forms were comparable with those obtained in previous studies. Furthermore, we applied this assay to the investigation of psychiatric disorder-associated mutations of RHEB (RHEB/P37L and RHEB/S68P), revealing that both mutations cause an increase in the ratio of the GTP-bound form in cells. Mechanistically, loss of sensitivity to TSC2 (a GTPase-activating protein for RHEB) for RHEB/P37L, as well as both decreased sensitivity to TSC2 and accelerated guanine-nucleotide exchange for RHEB/S68P, is involved in the increase of their GTP-bound forms, respectively. In summary, the HPLC-based assay developed in this study provides a valuable tool for analyzing small GTPases for which the activities and regulatory mechanisms are less well understood.
Databáze: OpenAIRE
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