Redox signaling in colonial hydroids: many pathways for peroxide

Blackstone, Neil W.; Bivins, Matthew J.; Cherry, Kimberly S.; Fletcher, Robert E.; Geddes, Gabrielle C.

doi:10.1242/jeb.01394

Cited by 17 publications

(32 citation statements)

References 29 publications

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“…8 The fact that ascorbate and glutathione are not specific in the forms of ROS that they scavenge, but that catalase specifically scavenges hydrogen peroxide (H 2 O 2 ) only, 9 may explain their different effects on AL-PCD induction. Additionally, catalase is a large tetramer of 350 kDa that cannot diffuse across cell membranes 10 and so its effects must have been extracellular, while ascorbate and glutathione are small molecules that may have entered the cells themselves and affected the intracellular redox status. By reducing levels of toxic ROS, ascorbate and glutathione treatments may have reduced cellular stress levels, allowing the cells to initiate AL-PCD during the heat treatment, rather than experiencing uncontrolled necrotic death, which occurs during high stress exposure.…”

mentioning

confidence: 99%

Type and cellular location of reactive oxygen species determine activation or suppression of programmed cell death in Arabidopsis suspension cultures

Doyle¹,

McCabe²

2010

Plant Signaling & Behavior

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confidence: 99%

Type and cellular location of reactive oxygen species determine activation or suppression of programmed cell death in Arabidopsis suspension cultures

Doyle¹,

McCabe²

2010

Plant Signaling & Behavior

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“…Colonies treated with exogenous vitamin C exhibit stolon regression as well as elevated levels of ROS and RNS in stolon tips (Blackstone et al, 2004;Blackstone et al, 2005;Cherry Vogt et al, 2008). However, in colonies treated with the caspase inhibitor, z-DEVDfmk, ROS levels are suppressed (Fig.3A-F).…”

Section: Effects Of Caspase Inhibitorsmentioning

confidence: 92%

“…Treatment with exogenous peroxide at low concentrations (20-50moll -1 ) has no effect on colony morphology (Blackstone et al, 2005). At higher concentrations (5mmoll -1 ), treatment with peroxide has been shown to trigger high rates of stolon regression (Cherry Vogt et al, 2008).…”

Section: Comparisons Of Colony Morphologymentioning

confidence: 99%

“…When stolon regression was induced using vitamin C (Blackstone et al, 2005), the poly-caspase inhibitor z-DEVD-fmk [benzyloxycarbonyl-Asp(OMe)-Glu(OMe)-ValAsp(OMe)-fluoromethylketone; BioVision, Inc., Mountain View, CA, USA] was used. This inhibitor is thought to affect caspases 3 and 7 and possibly caspases 6, 8 and 9 as well (Duval et al, 2002;Fahy et al, 1999).…”

Section: Effects Of Caspase Inhibitorsmentioning

confidence: 99%

“…Colonies were treated with a 2moll -1 solution of z-DEVD-fmk and seawater. Vitamin C in seawater adjusted to pH8 was then added to a final concentration of 100moll -1 and the colonies were incubated for 1h (Blackstone et al, 2005). Following the addition of a fluorescent probe for detecting peroxide [2Ј,7Ј-dichlorodihydrofluorescein diacetate (H 2 DCFDA); Molecular Probes, Eugene, OR, USA], colonies were incubated for an additional hour before imaging three stolon tips per colony.…”

Section: Effects Of Caspase Inhibitorsmentioning

confidence: 99%

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Causes and consequences of stolon regression in a colonial hydroid

Vogt

Harmata

Coulombe

et al. 2011

Journal of Experimental Biology

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SUMMARYA cnidarian colony can be idealized as a group of feeding polyps connected by tube-like stolons. Morphological variation ranges from runner-like forms with sparse polyp and stolon development to sheet-like forms with dense polyp and stolon development. These forms have typically been considered in a foraging context, consistent with a focus on rates of polyp development relative to stolon elongation. At the same time, rates of stolon regression can affect this morphological variation; several aspects of regression were investigated in this context. More sheet-like forms were produced by periodic peroxide treatment, which induced high rates of stolon regression. Caspase inhibitors altered the effects of regression induced by peroxide or vitamin C. These inhibitors generally diminished physical regression and the abundance of associated reactive oxygen species. Caspase inhibitors also altered cellular ultrastructure, resulting in features suggestive of necrosis rather than apoptosis. At the same time, caspase inhibitors had little effect on reactive nitrogen species that are also associated with regression. Although regression is most easily triggered by pharmacological perturbations related to reactive oxygen species (e.g. peroxide or vitamin C), a variety of environmental effects, particularly restricted environments and an interaction between feeding and temperature, can also induce regression. Stolon regression may thus be a factor contributing to natural variation between runners and sheets.

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Multicellular redox regulation: integrating organismal biology and redox chemistry

Blackstone

2005

BioEssays

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Early in the 20th century, Charles Manning Child attributed organismal gradients in metabolism to interactions among groups of cells. Metabolic gradients are now firmly grounded in redox chemistry, yet modern work on metabolic signaling has consistently focused on the cellular level. Multicellular redox regulation, however, may occur when redox state is determined by the behavior of a group of cells. For instance, typically an abundance of substrate will shift the redox state of mitochondria in the direction of reduction, leading to increased reactive oxygen species (ROS). These ROS, in turn, may modify the conformation and activity of proteins involved in signaling pathways, resulting in phenotypic changes. In contrast, if substrate triggers the contractions of a muscular structure comprising mitochondrion-rich cells, the resulting metabolic demand may shift the redox state in the direction of oxidation, with a corresponding decrease of ROS and different phenotypic effects. Indeed, colonial hydroids exemplify this process. Parallel examples may occur whenever mitochondria are concentrated in cells of structures that can respond to environmental perturbations with increased metabolic demand. In these circumstances, predicting the direction of metabolic signaling may require an understanding of events at the organismal level.

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Redox signaling in colonial hydroids: many pathways for peroxide

Cited by 17 publications

References 29 publications

Type and cellular location of reactive oxygen species determine activation or suppression of programmed cell death in Arabidopsis suspension cultures

Type and cellular location of reactive oxygen species determine activation or suppression of programmed cell death in Arabidopsis suspension cultures

Causes and consequences of stolon regression in a colonial hydroid

Multicellular redox regulation: integrating organismal biology and redox chemistry

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