puckered encodes a phosphatase that mediates a feedback loop regulating JNK activity during dorsal closure in Drosophila

Martı́n-Blanco, Enrique; Gampel, Alexandra; Ring, J; Virdee, Kanwar; Kirov, Nikolai; Tolkovsky, Aviva M.; Martínez-Arias, Alfonso

doi:10.1101/gad.12.4.557

Cited by 621 publications

(651 citation statements)

References 42 publications

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“…In contrast, multiple lines of evidence suggest that the essential function of Rac is the ultimate activation of Jun/Fos AP-1 and transcriptional regulation mediated through the JNK pathway. For example, mutations in hep can suppress activated Rac, and Puc phosphatase overexpression mimics the e ects on the LE cytoskeleton of both JNK loss-offunction and expression of DN-Rac (Glise and Noselli, 1997;Martin-Blanco et al, 1998). These data call into question the role of each GTPase in DC and the extent of branching signals upstream of the JNK pathway.…”

Section: Remaining Questionsmentioning

confidence: 99%

“…In fact puc loss-of-function mutant embryo lysates have increased JNK activity in kinase assays, and enhanced dpp expression in embryos (Martin-Blanco et al, 1998). In contrast, ubiquitous expression in embryos of wildtype Puc leads to dorsal cuticle holes and a loss of dpp expression indicating a substantial downregulation of JNK pathway activity (Martin-Blanco et al, 1998). Therefore, Puc serves a key regulatory role in JNK signaling as a transcriptional target of the pathway that builds up and feeds back negatively on the activity of Bsk to moderate signaling through the pathway.…”

Section: Introductionmentioning

confidence: 97%

“…Puc functions to moderate signaling through the JNK pathway by antagonizing the kinase activity of Bsk. In fact puc loss-of-function mutant embryo lysates have increased JNK activity in kinase assays, and enhanced dpp expression in embryos (Martin-Blanco et al, 1998). In contrast, ubiquitous expression in embryos of wildtype Puc leads to dorsal cuticle holes and a loss of dpp expression indicating a substantial downregulation of JNK pathway activity (Martin-Blanco et al, 1998).…”

Section: Introductionmentioning

confidence: 99%

“…puc encodes a dual-speci®city protein phosphatase of the VH-1 family of MAP kinase phosphatases (MKPs), that is localized specifically in LE cells (Martin-Blanco et al, 1998;Ring and Martinez-Arias, 1993). Puc functions to moderate signaling through the JNK pathway by antagonizing the kinase activity of Bsk.…”

Section: Introductionmentioning

confidence: 99%

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Stress signaling in Drosophila

1999

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Section: Remaining Questionsmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 97%

Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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Stress signaling in Drosophila

1999

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“…The GAL4/ UAS system (Brand and Perrimon, 1993), which functions in JNK-active cells, is a good tool to study in this respect. Here I engineer a GAL4 enhancer trap of the puckered (puc) gene, which encodes a MAPK phosphatase family member to inactivate JNK (Martín-Blanco et al, 1998). The expression of puc is known to be induced by the JNK signal, thereby creating a negative regulatory circuit of JNK signaling.…”

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confidence: 99%

Puckered‐GAL4 driving in JNK‐active cells

Adachi‐Yamada

2002

Genesis

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c-Jun N-terminal kinase (JNK) is an evolutionarily conserved protein kinase belonging to the mitogen-activated protein kinase (MAPK) superfamily. It regulates a number of cellular processes such as proliferation, differentiation, and apoptosis in response to various growthinducible and stressful stimuli (Davis, 2000). In a genetically amenable organism, fruit fly Drosophila, a homolog of JNK (also known as Basket or DJNK) has been reported to control cell morphogenesis, planar cell polarity, apoptosis, and wound healing (Noselli, 1998;Ip and Davis, 1998;Ramet et al., 2002). To understand the detailed molecular mechanism controlling these phenomena, it is important to examine how modification of signaling affects these cellular responses. The GAL4/ UAS system (Brand and Perrimon, 1993), which functions in JNK-active cells, is a good tool to study in this respect. Here I engineer a GAL4 enhancer trap of the puckered (puc) gene, which encodes a MAPK phosphatase family member to inactivate JNK (Martín-Blanco et al., 1998). The expression of puc is known to be induced by the JNK signal, thereby creating a negative regulatory circuit of JNK signaling. This new GAL4 line was named puc GAL4E69 .A technique that was referred to as enhancer-trap targeting (Gonzy-Treboul et al., 1995) was used to induce the puc GAL4E69 GAL4-enhancer trap line. Briefly, p{A92}, a derivative of the transposon P-element with a reporter gene lacZ, which is included in the puc E69 lacZ-enhancer trap allele, was replaced with pGawB, another P-element construct with an enhancer-less GAL4 gene (Brand and Perrimon, 1993). About 200 dysgenic males possessing three kinds of P-element-i.e. puc E69 , X-linked pGawB, and ⌬2-3, a transposase supplier Pelement-were crossed with normal females, and then approximately 500 male progenies without ⌬2-3 were collected. It is possible that they contained new autosomal insertions. Among this collection, a single line showing a GAL4 expression pattern similar to the known puc-lacZ expression pattern was identified. The structure around the P-element insertion is shown in Figure 1. Sequence analyses revealed that the insertion sites of each puc E69 and puc GAL4E69 P-element were identical. However, the two P-elements p{A92} and pGawB were not precisely replaced. Consequently, the resulting GAL4-expressing construct lost both of the visible dominant markers, ry ϩ in p{A92} and mini-w ϩ in pGawB. It also lost the lacZ reporter gene in p{A92}.The expression pattern of puc GAL4E69 in the embryo is shown in Figure 2a and b. JNK is known to be activated in the leading edge cells of the epithelial cell sheet during embryonic dorsal closure. However, unlike the previously reported puc-lacZ expression (Glise et al., 1995), puc GAL4E69 expression recognized by UAS-lacZ expression could not be detected in the leading edge cells. The failure of this expression was probably caused by the presence of a potential silencer-like element in the newly inserted GAL4-expressing P-element construct. At the later embryonic stage, puc GA...

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JNK, cytoskeletal regulator and stress response kinase? A Drosophila perspective

Goberdhan

Wilson

1999

Bioessays

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puckered encodes a phosphatase that mediates a feedback loop regulating JNK activity during dorsal closure in Drosophila

Cited by 621 publications

References 42 publications

Stress signaling in Drosophila

Stress signaling in Drosophila

Puckered‐GAL4 driving in JNK‐active cells

JNK, cytoskeletal regulator and stress response kinase? A Drosophila perspective

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