JNK signaling pathway required for wound healing in regenerating Drosophila wing imaginal discs

Bosch, Manel; Serras, Florenci; Martı́n-Blanco, Enrique; Baguñà, Jaume

doi:10.1016/j.ydbio.2005.01.002

Cited by 173 publications

(232 citation statements)

References 37 publications

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“…In many systems, ranging from insects to mammals, JNK plays diverse roles in organ development and tissue repair. In Drosophila, JNK homologs contribute to cell proliferation and wound healing (Bosch et al, 2005). In Caenorhabditis elegans, JNK homologs participate in normal development as well as in stress response after injury (Mizuno et al, 2004).…”

Section: Discussionmentioning

confidence: 99%

Delayed Inhibition of c-Jun N-Terminal Kinase Worsens Outcomes after Focal Cerebral Ischemia

Murata¹,

Fujiwara²,

Seo³

et al. 2012

Journal of Neuroscience

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The stress-activated protein kinase c-Jun N-terminal kinase (JNK) is a central regulator in neuronal death cascades. In animal models of cerebral ischemia, acute inhibition of JNK reduces infarction and improves outcomes. Recently however, emerging data suggest that many neuronal death mediators may have biphasic properties-deleterious in the acute stage but potentially beneficial in the delayed stage. Here, we hypothesized that JNK may also have biphasic actions, so some caution may be required in the development of JNK inhibitors for stroke. Sprague Dawley rats underwent 90 min transient occlusions of the middle cerebral artery. Acute treatment (10 min poststroke) with the JNK inhibitor SP600125 reduced infarction volumes. In contrast, delayed treatment (7 d poststroke) worsened infarction volumes and neurological outcomes. Immunostaining of peri-infarct cortex showed that JNK inhibition suppressed surrogate markers of neurovascular remodeling, including matrix metalloproteinase-9 in GFAP-positive astrocytes and microvascular density. Consistent with these in vivo data, SP600125 significantly suppressed in vitro angiogenesis in rat brain endothelial cultures. Our data provide initial proof-of-concept that the neuronal death target JNK may also participate in endogenous processes of neurovascular remodeling and recovery after cerebral ischemia.

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Section: Discussionmentioning

confidence: 99%

Delayed Inhibition of c-Jun N-Terminal Kinase Worsens Outcomes after Focal Cerebral Ischemia

Murata¹,

Fujiwara²,

Seo³

et al. 2012

Journal of Neuroscience

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“…Indeed columnar and peripodial epithelial cells in the disc form a contractile actin cable and filopodia in the wound edges, thus closing the wound as in DC (Fig. 5B,C) (Bosch et al, 2005;Mattila et al, 2005). Later a blastema is formed (Abbott et al, 1981;Kiehle Fig.…”

Section: Injury and Regeneration Of Drosophila Imaginal Discs: A Modementioning

confidence: 98%

“…Picture reprinted from Rauzi and Lecuit (2009) with permission from Elsevier. and Schubiger, 1985;Bosch et al, 2005;Bergantiñ os et al, 2010a). The blastema cells in Drosophila imaginal discs are not pluripotent and retain their compartment origin identity, contributing only to the reconstruction of the damaged compartment (Bosch et al, 2008;Bergantiñ os et al, 2010a).…”

Section: Injury and Regeneration Of Drosophila Imaginal Discs: A Modementioning

confidence: 99%

“…Recently, Wagner and co-workers provided evidence that neoblasts, which are adult pluripotent stem cells, underlie the remarkable regenerative abilities of planarians (Wagner et al, 2011 Table 1 in Stocum and Zupanc, 2008). Although different, all these processes share signaling pathways and molecular mechanisms to restore normal function of the affected tissue (Bosch et al, 2005;Mattila et al, 2005;Gurtner et al, 2008). Determining how common signaling pathways are used in different processes is one of the main questions in developmental biology and regenerative medicine.…”

Section: Regeneration: Blastema Formation and The Role Of Adult Stem mentioning

confidence: 99%

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Drosophila as a model of wound healing and tissue regeneration in vertebrates

Belacortu

Paricio

2011

Developmental Dynamics

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Understanding the molecular basis of wound healing and regeneration in vertebrates is one of the main challenges in biology and medicine. This understanding will lead to medical advances allowing accelerated tissue repair after wounding, rebuilding new tissues/organs and restoring homeostasis. Drosophila has emerged as a valuable model for studying these processes because the genetic networks and cytoskeletal machinery involved in epithelial movements occurring during embryonic dorsal closure, larval imaginal disc fusion/regeneration, and epithelial repair are similar to those acting during wound healing and regeneration in vertebrates. Recent studies have also focused on the use of Drosophila adult stem cells to maintain tissue homeostasis. Here, we review how Drosophila has contributed to our understanding of these processes, primarily through live-imaging and genetic tools that are impractical in mammals. Furthermore, we highlight future research areas where this insect may provide novel insights and potential therapeutic strategies for wound healing and regeneration. Developmental Dynamics 240:2379-2404,

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“…22 In this period of non-responsiveness to wound signals embryonic tissues can still repair and they do so generally without producing scarring or fibrosis, suggesting the intriguing idea that scars are the result of the inflammatory process that takes place at the adults wounds. 25 Beyond their roles in the embryo, Drosophila hemocytes play an important role in efficiently fighting infections 26 and repairing tissue damage [27][28][29] during the larval and adult stages of the fly. Just before hatching into larva, the heart (dorsal vessel) begins to beat, and the hemolymph (fly blood) circulation is established.…”

Section: Hemocytes and Tumorigenesismentioning

confidence: 99%