Cell Type-Specific Transcriptome Profiling Reveals a Role for Thioredoxin During Tumor Initiation

Korte, Benjamin G.; Giese, Morgan A.; Ramakrishnan, Gayathri; Ma, Stella; Bennin, David A.; Rindy, Julie; Dewey, Colin N.; Huttenlocher, Anna

doi:10.3389/fimmu.2022.818893

Cited by 7 publications

(3 citation statements)

References 49 publications

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“…By contrast, H 2 O 2 remained restricted to the wound edge in larvae burned in the presence of isotonic solution, displaying a similar localized pattern to that observed after mechanical injury ( Fig. 5F ) 53,57 . Quantification revealed that H 2 O 2 level at the wound edge was similar between control and isotonic treated larvae 6 hpb.…”

Section: Resultssupporting

confidence: 63%

“…At 6 hours post burn, H 2 O 2 production was no longer localized to the wound edge in control burned larvae and had increased throughout the tailfin. By contrast, H 2 O 2 remained restricted to the wound edge in larvae burned in the presence of isotonic solution, displaying a similar localized pattern to that observed after mechanical injury (Figure 5F) (Jelcic et al, 2019; Korte et al, 2022). Quantification revealed that H 2 O 2 level at the wound edge was similar between control and isotonic treated larvae 6 hpw.…”

Section: Resultssupporting

confidence: 59%

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Damage-induced basal epithelial cell migration modulates the spatial organization of redox signaling and sensory neuron regeneration

Fister

Horn

Huttenlocher

2023

Preprint

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Epithelial damage leads to early reactive oxygen species (ROS) signaling that regulates sensory neuron regeneration and tissue repair. How the initial type of tissue injury influences early damage signaling and regenerative growth of sensory neurons remains unclear. Previously we reported that thermal injury triggers distinct early tissue responses in larval zebrafish. Here, we found that thermal but not mechanical injury impairs sensory neuron regeneration and function. Real-time imaging revealed an immediate tissue response to thermal injury characterized by the rapid movement of keratinocytes, which was associated with tissue-scale ROS production and sustained sensory neuron damage. Osmotic regulation induced by isotonic treatment was sufficient to limit keratinocyte movement, spatially-restrict ROS production and rescue sensory neuron function. These results suggest that early keratinocyte dynamics regulate the spatial and temporal pattern of long-term signaling in the wound microenvironment during sensory neuron regeneration and tissue repair.

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Section: Resultssupporting

confidence: 63%

Section: Resultssupporting

confidence: 59%

Damage-induced basal epithelial cell migration modulates the spatial organization of redox signaling and sensory neuron regeneration

Fister

Horn

Huttenlocher

2023

Preprint

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“…Increased recruitment of immune cells can promote cancer cell progression and metastasis [30, 31]. Larval zebrafish have an intact innate immune system which can be live imaged to evaluate immune cell infiltration and association with tumor cells [27, 32]. Using fluorescent reporters for neutrophils and macrophages, we imaged innate immune cell recruitment to the injection site.…”

Section: Resultsmentioning

confidence: 99%

Staphylococcus aureus lipid factors modulate melanoma clustering and invasion in zebrafish

Giese,

Ramakrishnan,

Steenberge

et al. 2024

Preprint

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The microbiome can influence cancer development and progression. However, less is known about the role of the skin microbiota in melanoma. Here, we take advantage of a zebrafish melanoma model to probe the effects of Staphylococcus aureus on melanoma invasion. We find that S. aureus produces factors that enhance melanoma invasion and dissemination in zebrafish larvae. We used a published in vitro 3D cluster formation assay which correlates increased clustering with tumor invasion. S. aureus supernatant increased clustering of melanoma cells which was abrogated by use of a Rho-Kinase inhibitor, implicating a role for Rho-GTPases. The melanoma clustering response was specific to S. aureus and not other staphylococcal species, including S. epidermidis. Our findings suggest that S. aureus may promote melanoma clustering and invasion via lipids generated by the lipase SAL2 (gehB). Taken together, these findings suggest that specific bacterial products mediate melanoma invasive migration in zebrafish.

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Staphylococcus aureus lipid factors modulate melanoma cell clustering and invasion

Giese,

Ramakrishnan,

Steenberge

et al. 2024

Disease Models &Amp; Mechanisms

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The microbiome can influence cancer development and progression. However, less is known about the role of the skin microbiota in melanoma. Here, we took advantage of a zebrafish melanoma model to probe the effects of Staphylococcus aureus on melanoma invasion. We found that S. aureus produces factors that enhance melanoma invasion and dissemination in zebrafish larvae. We used a published in vitro 3D cluster formation assay that correlates increased clustering with tumor invasion. S. aureus supernatant increased clustering of melanoma cells and was abrogated by a Rho-Kinase inhibitor, implicating a role for Rho-GTPases. The melanoma clustering response was specific to S. aureus but not to other staphylococcal species, including S. epidermidis. Our findings suggest that S. aureus promotes melanoma clustering and invasion via lipids generated by the lipase Sal2 (officially known as GehB). Taken together, these findings suggest that specific bacterial products mediate melanoma invasive migration in zebrafish.

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Cell Type-Specific Transcriptome Profiling Reveals a Role for Thioredoxin During Tumor Initiation

Cited by 7 publications

References 49 publications

Damage-induced basal epithelial cell migration modulates the spatial organization of redox signaling and sensory neuron regeneration

Damage-induced basal epithelial cell migration modulates the spatial organization of redox signaling and sensory neuron regeneration

Staphylococcus aureus lipid factors modulate melanoma clustering and invasion in zebrafish

Staphylococcus aureus lipid factors modulate melanoma cell clustering and invasion

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