Myung-Hwan Jeong scite author profile

Kawasaki

Shim

2010

Developmental Dynamics

C. elegans shows dauer-like larvae formation upon cholesterol starvation (CS), but the genetic epistasis among abnormal dauer formation (daf) genes during the process remains unclear. To clarify the genetic interactions among daf-9, daf-12, and daf-16 in this process, mRNA levels of these genes upon CS were measured. CS increased the mRNA levels of daf-9, daf-12, and daf-16. CS also induced DAF-16 nuclear localization, which was positively and negatively regulated by DAF-12 and DAF-9 activities, respectively. Activated DAF-16, a FOXO transcription factor, enhanced daf-12 but suppressed daf-9 expression, whereas DAF-9 inhibited daf-12 expression. Concomitantly, CS-induced larval arrest was regulated positively by DAF-12 and DAF-16, but negatively by DAF-9. The larval arrest in daf-9 mutant was suppressed by daf-12 RNAi, placing DAF-12 downstream of DAF-9. These results altogether suggest that circulatory mutual regulation among daf-9, daf-12, and daf-16 at the expression level mediates cholesterol signal to control larval development upon CS. Developmental Dynamics 239:1931-1940,

Regulation of Sperm-Specific Proteins by IFE-1, a Germline-Specific Homolog of eIF4E, in C. elegans

Kawasaki

Shim

2011

Molecules and Cells

IFE-1 is one of the five C. elegans homologs of eIF4E, which is the mRNA 5′ cap-binding component of the translation initiation complex eIF4F. Depletion of IFE-1 causes defects in sperm, suggesting that IFE-1 regulates a subset of genes required for sperm functions. To further understand the molecular function of IFE-1, proteomic analysis was performed to search for sperm proteins that are downregulated in ife-1(ok1978); fem-3(q20) mutants relative to the fem-3(q20) control. The fem-3(q20) mutant background was used because it only produces sperm at restrictive temperature. Total worm proteins were subjected to 2D-DIGE, and differentially expressed protein spots were further identified by MALDI-TOF mass spectrometry. Among the identified proteins, GSP-3 and Major Sperm Proteins (MSPs) were found to be significantly down-regulated in the ife-1(ok1978) mutant. Moreover, RNAi of gsp-3 caused an ife-1-like phenotype. These results suggest that IFE-1 is required for efficient expression of some sperm-specific proteins, and the fertilization defect of ife-1 mutant is caused mainly by a reduced level of GSP-3.

Apigenin inhibits larval growth ofCaenorhabditis elegansthrough DAF‐16 activation

Kawasaki¹,

Jeong²,

Oh³

et al. 2010

FEBS Letters

a b s t r a c tTreatment of Caenorhabditis elegans with apigenin, 5,7,4 0 -trihydroxyflavone, induces larval growth inhibition. To understand the molecular basis of apigenin-induced larval growth inhibition, the effects of apigenin on DAF-16 activity were examined. DAF-16 was activated through nuclear translocation and the mRNA level of sod-3, one of the known DAF-16 target genes, was increased upon apigenin treatment. DAF-16 activity was required for the growth inhibition, since the larval growth retardation upon apigenin treatment was suppressed in daf-16 mutants. These results indicate that apigenin acts as a stressor that activates DAF-16, which in turn inhibits larval growth.

Cholesterol-Responsive Metabolic Proteins Are Required for Larval Development in Caenorhabditis elegans

Kawasaki

Yun

et al. 2013

Molecules and Cells

Caenorhabditis elegans, a cholesterol auxotroph, showed defects in larval development upon cholesterol starvation (CS) in a previous study. To identify cholesterol-responsive proteins likely responsible for the larval arrest upon CS, a comparative proteomic analysis was performed between C. elegans grown in normal medium supplemented with cholesterol (CN) and those grown in medium not supplemented with cholesterol (cholesterol starvation, CS). Our analysis revealed significant change (more than 2.2-fold, p < 0.05) in nine proteins upon CS. Six proteins were down-regulated [CE01270 (EEF-1A.1), CE08852 (SAMS-1), CE11068 (PMT-2), CE09015 (ACDH-1), CE12564 (R07H5.8), and CE09655 (RLA-0)], and three proteins were up-regulated [CE29645 (LEC-1), CE16576 (LEC-5), and CE01431 (NEX-1)]. RNAi phenotypes of two of the down-regulated genes, R07H5.8 (adenosine kinase) and rla-0 (ribosomal protein), in CN were similar to that of larval arrest in CS, and RNAi of a down-regulated gene, R07H5.8, in CS further enhanced the effects of CS, suggesting that downregulation of these genes is likely responsible for the larval arrest in CS. All three up-regulated genes contain putative DAF-16 binding sites and mRNA levels of these three genes were all decreased in daf-16 mutants in CN, suggesting that DAF-16 activates expression of these genes.

In vitro and in vivo evaluation of the genotoxicity of Eriobotrya japonica leaf extract

Regulatory Toxicology and Pharmacology

Seong

Lee

et al. 2018