Maria Still scite author profile

C. elegans worms hatching in the absence of food show growth arrest during the first larval stage (L1). While much has been learned about the later diapause, dauer, which worms enter under adverse conditions, much less is known about the mechanisms governing L1 arrest. Here we show that worms lacking activity of the asna-1 gene arrest growth reversibly at the L1 stage even when food is abundant. asna-1 encodes an ATPase that functions nonautonomously to regulate growth. asna-1 is expressed in a restricted set of sensory neurons and in insulin-producing intestinal cells. asna-1 mutants are reduced in insulin secretion while overexpression of asna-1 mimics the effects of insulin overexpression. Human ASNA1 is highly expressed in pancreatic beta cells, but not in other pancreatic endocrine cell types, and regulates insulin secretion in cultured cells. We propose that ASNA1 is an evolutionarily conserved modulator of insulin signaling.

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ASNA-1 Activity Modulates Sensitivity to Cisplatin

Hemmingsson

Kao

Still

et al. 2010

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Cancer can be cured by platinum-based chemotherapy, but resistance is a major cause of treatment failure. Here we present the nematode Caenorhabditis elegans as a model to study interactions between the platinum drug cisplatin and signaling pathways in vivo. Null mutation in a single gene, asna-1, makes worms hypersensitive to cisplatin. The metalloregulated ATPase ASNA-1 promotes insulin secretion and membrane insertion of tail-anchored proteins. Using structural data from ASNA-1 homologues, we identify specific ASNA-1 mutants that are sensitive to cisplatin while still able to promote insulin signaling. Mutational analysis reveals that hypersensitivity of ASNA-1 mutants to cisplatin remains in absence of CEP-1/p53 or apoptosis. Human ASNA1 can substitute for the worm gene, indicating a conserved function. Cisplatin sensitivity is not affected by decreased insulin signaling in wild-type nematodes or restored insulin signaling in asna-1 mutants. These findings provide a functional insight into ASNA-1, demonstrate that C. elegans can be used to characterize cisplatin resistance mechanisms, and suggest that rationally designed drugs against ASNA-1 can sensitize cancer cells to cisplatin.

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ASNA1, an ATPase targeting tail-anchored proteins, regulates melanoma cell growth and sensitivity to cisplatin and arsenite

Hemmingsson

Zhang

Still

et al. 2008

Cancer Chemother Pharmacol

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[Ca²⁺]_iRISE IN JURKAT E6‐1 CELL LINES FROM DIFFERENT SOURCES AS A RESPONSE TO 50Hz MAGNETIC FIELD EXPOSURE IS A REPRODUCIBLE EFFECT AND INDEPENDENT OF POLY‐l‐LYSINE TREATMENT

Mattsson

Lindström

Still

et al. 2001

Cell Biology International

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Jurkat E6-1 cells obtained from three different sources were compared with respect to intracellular calcium response to a 50 Hz, 0.15 mT, magnetic field, to treatment with poly-L-lysine and to protein expression at the cell surface. The fura-2 single cell measurements were a replication study performed by three members of our group. The cells responded to the applied magnetic fields, although the percentage of responding cells was lower than in earlier studies. The geomagnetic field was backed off without changing the outcome of the intracellular calcium measurements. Fluorometric analyses showed no difference between the E6-1 cells obtained from three sources with respect to the expression of cell surface marker molecules. The addition of the cell adhesive peptide, poly-L-lysine, did not itself cause any effects on the intracellular calcium concentration.

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ELF magnetic fields initiate protein tyrosine phosphorylation of the T cell receptor complex

Lindström

Still

Mattsson

et al. 2001

Bioelectrochemistry

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Maria Still

ASNA-1 Positively Regulates Insulin Secretion in C. elegans and Mammalian Cells

ASNA-1 Activity Modulates Sensitivity to Cisplatin

ASNA1, an ATPase targeting tail-anchored proteins, regulates melanoma cell growth and sensitivity to cisplatin and arsenite

[Ca²⁺]_iRISE IN JURKAT E6‐1 CELL LINES FROM DIFFERENT SOURCES AS A RESPONSE TO 50Hz MAGNETIC FIELD EXPOSURE IS A REPRODUCIBLE EFFECT AND INDEPENDENT OF POLY‐l‐LYSINE TREATMENT

ELF magnetic fields initiate protein tyrosine phosphorylation of the T cell receptor complex

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Maria Still

ASNA-1 Positively Regulates Insulin Secretion in C. elegans and Mammalian Cells

ASNA-1 Activity Modulates Sensitivity to Cisplatin

ASNA1, an ATPase targeting tail-anchored proteins, regulates melanoma cell growth and sensitivity to cisplatin and arsenite

[Ca2+]iRISE IN JURKAT E6‐1 CELL LINES FROM DIFFERENT SOURCES AS A RESPONSE TO 50Hz MAGNETIC FIELD EXPOSURE IS A REPRODUCIBLE EFFECT AND INDEPENDENT OF POLY‐l‐LYSINE TREATMENT

ELF magnetic fields initiate protein tyrosine phosphorylation of the T cell receptor complex

Contact Info

Product

Resources

About

[Ca²⁺]_iRISE IN JURKAT E6‐1 CELL LINES FROM DIFFERENT SOURCES AS A RESPONSE TO 50Hz MAGNETIC FIELD EXPOSURE IS A REPRODUCIBLE EFFECT AND INDEPENDENT OF POLY‐l‐LYSINE TREATMENT