Rachel M. Kindt scite author profile

Rho family GTPases are thought to regulate actin-dependent processes, but their functions in vivo are still poorly understood. We have investigated the function of a new, widely expressed Rho family member in C. elegans by analyzing mutations in the endogenous gene. Activated and null alleles all inhibit cell migration, demonstrating that this protein is required for cell migration in vivo. Only a small subset of the migrations inhibited by activating mutations are inhibited by null mutations, suggesting that considerable functional redundancy exists within this system. Our findings support this conclusion and show that mig-2 functions redundantly with another pathway to regulate nuclear migration. Surprisingly, activated alleles also cause misguided axon growth, suggesting that Rho family GTPases may couple guidance cues to process outgrowth.

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Chemical genetics identifies Rab geranylgeranyl transferase as an apoptotic target of farnesyl transferase inhibitors

Lackner

et al. 2005

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A chemical genetics approach identified a cellular target of several proapoptotic farnesyl transferase inhibitors (FTIs). Treatment with these FTIs caused p53-independent apoptosis in Caenorhabditis elegans, which was mimicked by knockdown of endosomal trafficking proteins, including Rab5, Rab7, the HOPS complex, and notably the enzyme Rab geranylgeranyl transferase (RabGGT). These FTIs were found to inhibit mammalian RabGGT with potencies that correlated with their proapoptotic activity. Knockdown of RabGGT induced apoptosis in mammalian cancer cell lines, and both RabGGT subunits were overexpressed in several tumor tissues. These findings validate RabGGT, and by extension endosomal function, as a therapeutically relevant target for modulation of apoptosis, and enhance our understanding of the mechanism of action of FTIs.

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Chemical Genetics Reveals an RGS/G-Protein Role in the Action of a Compound

et al. 2006

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We report here on a chemical genetic screen designed to address the mechanism of action of a small molecule. Small molecules that were active in models of urinary incontinence were tested on the nematode Caenorhabditis elegans, and the resulting phenotypes were used as readouts in a genetic screen to identify possible molecular targets. The mutations giving resistance to compound were found to affect members of the RGS protein/G-protein complex. Studies in mammalian systems confirmed that the small molecules inhibit muscarinic G-protein coupled receptor (GPCR) signaling involving G-αq (G-protein alpha subunit). Our studies suggest that the small molecules act at the level of the RGS/G-αq signaling complex, and define new mutations in both RGS and G-αq, including a unique hypo-adapation allele of G-αq. These findings suggest that therapeutics targeted to downstream components of GPCR signaling may be effective for treatment of diseases involving inappropriate receptor activation.

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Pertussis toxin specifically inhibits growth cone guidance by a mechanism independent of direct G protein inactivation

Kindt

Lander

1995

Neuron

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An assay employing patterned laminin substrata was used to screen for compounds that disrupt neurite guidance. One molecule, pertussis toxin, caused neurites to wander from patterns that normally guided them, yet had no significant effect on rates of neurite outgrowth. Wandering was greatest on patterns requiring frequent guidance (e.g., laminin stripes with periodic gaps). Surprisingly, the B oligomer of pertussis toxin, which lacks the subunit that inactivates G proteins, was equipotent at disrupting neurite guidance. Pertussis toxin probably acts by binding cell surface carbohydrates, since neurites lacking complex-type N-linked oligosaccharides were insensitive to the effects of the toxin. The B oligomer also blocked growth cone collapse induced by a brain membrane-derived factor; such factors are thought to act as repulsive guidance cues in vivo. That a single reagent can inhibit neuronal responses to both attractive and repulsive guidance cues suggests that such cues may share signaling pathways.

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Inhibition of cartilage breakdown by isothiazolones

Wright

Petraitis

Abelman

et al. 1993

Bioorganic & Medicinal Chemistry Letters

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Rachel M. Kindt

Role of a New Rho Family Member in Cell Migration and Axon Guidance in C. elegans

Chemical genetics identifies Rab geranylgeranyl transferase as an apoptotic target of farnesyl transferase inhibitors

Chemical Genetics Reveals an RGS/G-Protein Role in the Action of a Compound

Pertussis toxin specifically inhibits growth cone guidance by a mechanism independent of direct G protein inactivation

Inhibition of cartilage breakdown by isothiazolones

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