c-Jun Kinase Is a Critical Signaling Molecule in a Neonatal Model of Group B Streptococcal Sepsis

Kenzel, Sybille; Mancuso, Giuseppe; Malley, Richard; Teti, G; Golenbock, Douglas T.; Henneke, Philipp

doi:10.4049/jimmunol.176.5.3181

Cited by 44 publications

(38 citation statements)

References 34 publications

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“…Of particular interest for infectious disease is the selective use of MAPK inhibitors in antiinflammatory versus antimicrobial activity. In a murine model of Group B Streptococcal sepsis, SP600125 blocked cytokine production with no effect on phagocytosis or formation of antibacterial oxidative species [38].…”

Section: Discussionmentioning

confidence: 97%

C-Jun NH2 terminal kinase (JNK) is an essential mediator of Toll-like receptor 2-induced corneal inflammation

Adhikary

Sun

Pearlman

2008

Journal of Leukocyte Biology

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TLRs play an important role in the host inflammatory response to bacteria and bacterial products by activating a cascade of intracellular events leading to production of proinflammatory and chemotactic cytokines. To determine the role of MAPKs in TLR-induced corneal inflammation, we stimulated human corneal epithelial (HCE) cells with TLR2 ligands, tripalmitoyl-S-glyceroCys-(Lys)4 (Pam3Cys) or inactivated Staphylococcus aureus, and examined the time course of expression of MAPKs and the effect of MAPK inhibition on IkBα degradation and CXC chemokine production. We found that S. aureus and Pam3Cys stimulate phosphorylation of JNK, p38 MAPK, and ERK within 4 h and that blockade of JNK, but not p38 or ERK phosphorylation, had an inhibitory effect on IkBα degradation and CXC chemokine production. To determine if JNK is also important in TLR2-induced corneal inflammation in vivo, we examined JNK1 −/− mice and pharmacological inhibitors in a murine model of TLR2-induced corneal inflammation which is characterized by neutrophil recruitment to the corneal stroma and development of corneal haze. We found that corneal inflammation was significantly impaired in JNK1 −/− mice compared with control mice, and in mice treated with the JNK inhibitor compared with vehicle control. Taken together with results from HCE cells, these findings demonstrate that JNK has an essential role in TLR2-induced corneal inflammation.

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Section: Discussionmentioning

confidence: 97%

C-Jun NH2 terminal kinase (JNK) is an essential mediator of Toll-like receptor 2-induced corneal inflammation

Adhikary

Sun

Pearlman

2008

Journal of Leukocyte Biology

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“…There is also an increasing body of literature showing that JNK activation follows bacterial, fungal, prion, parasitic, or viral infections. Under these circumstances, JNK activation may influence important cellular consequences, such as alterations in gene expression (1,53,59,162,167,176,199,294,325,326,346), cell death (58,89,137,139,169,193,243,293), viral replication, persistent infection or progeny release (215,224,251,260), or altered cellular proliferation (178). The exact mechanism of JNK activation under each of these circumstances remains to be elucidated fully, although there may be involvement of Toll-like receptors, direct pathway modulation through interaction with upstream protein regulators, or the activation following an ER stress response (79,87,110,124,143,191,253,261,279,294,312).…”

Section: Fig 1 Overview Of the Jnk Pathway (A)mentioning

confidence: 99%

“…It is important that although the JDP2 sequence apparently contains a classic JBD consensus sequence within its leucine zipper domain (i.e., K 136 NEKQH LIYMLNLH 149 [residues of the consensus are shown in bold]), the site of interaction was mapped to the JDP2 C-terminal region beyond residue 153 (155). Indeed, a 14-amino-acid fragment derived from the JDP2 sequence (i.e., JDP2 [150][151][152][153][154][155][156][157][158][159][160][161][162][163] ), when added to the transcription factor ATF3, which is usually not a JNK substrate, facilitated JNK phosphorylation of ATF3; this sequence alone was therefore sufficient for JNK interaction (155). In contrast to c-Jun-binding partners such as c-Fos or ATF2, JDP2 acts as a repressor at the AP-1 site, and it also inhibits Ras-driven transformation of NIH 3T3 cells and suppresses tumor formation in vivo in a PC3 cell xenograft model (128).…”

Section: Transcription Factors As Jnk Substratesmentioning

confidence: 99%

Uses for JNK: the Many and Varied Substrates of the c-Jun N-Terminal Kinases

Bogoyevitch

Kobe

2006

Microbiol Mol Biol Rev

513

477

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SUMMARY The c-Jun N-terminal kinases (JNKs) are members of a larger group of serine/threonine (Ser/Thr) protein kinases from the mitogen-activated protein kinase family. JNKs were originally identified as stress-activated protein kinases in the livers of cycloheximide-challenged rats. Their subsequent purification, cloning, and naming as JNKs have emphasized their ability to phosphorylate and activate the transcription factor c-Jun. Studies of c-Jun and related transcription factor substrates have provided clues about both the preferred substrate phosphorylation sequences and additional docking domains recognized by JNK. There are now more than 50 proteins shown to be substrates for JNK. These include a range of nuclear substrates, including transcription factors and nuclear hormone receptors, heterogeneous nuclear ribonucleoprotein K, and the Pol I-specific transcription factor TIF-IA, which regulates ribosome synthesis. Many nonnuclear substrates have also been characterized, and these are involved in protein degradation (e.g., the E3 ligase Itch), signal transduction (e.g., adaptor and scaffold proteins and protein kinases), apoptotic cell death (e.g., mitochondrial Bcl2 family members), and cell movement (e.g., paxillin, DCX, microtubule-associated proteins, the stathmin family member SCG10, and the intermediate filament protein keratin 8). The range of JNK actions in the cell is therefore likely to be complex. Further characterization of the substrates of JNK should provide clearer explanations of the intracellular actions of the JNKs and may allow new avenues for targeting the JNK pathways with therapeutic agents downstream of JNK itself.

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“…GBS and encapsulated E. coli are major causes of sepsis and meningitis in the newborn and are being increasingly associated with invasive disease in the adult population (24). Moreover, several signal transduction pathways contributing to innate resistance against these bacteria have been elucidated recently (25)(26)(27)(28).…”

mentioning

confidence: 99%

Type I IFN Signaling Is Crucial for Host Resistance against Different Species of Pathogenic Bacteria

Mancuso

Midiri

Biondo

et al. 2007

The Journal of Immunology

220

214

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It is known that host cells can produce type I IFNs (IFN-αβ) after exposure to conserved bacterial products, but the functional consequences of such responses on the outcome of bacterial infections are incompletely understood. We show in this study that IFN-αβ signaling is crucial for host defenses against different bacteria, including group B streptococci (GBS), pneumococci, and Escherichia coli. In response to GBS challenge, most mice lacking either the IFN-αβR or IFN-β died from unrestrained bacteremia, whereas all wild-type controls survived. The effect of IFN-αβR deficiency was marked, with mortality surpassing that seen in IFN-γR-deficient mice. Animals lacking both IFN-αβR and IFN-γR displayed additive lethality, suggesting that the two IFN types have complementary and nonredundant roles in host defenses. Increased production of IFN-αβ was detected in macrophages after exposure to GBS. Moreover, in the absence of IFN-αβ signaling, a marked reduction in macrophage production of IFN-γ, NO, and TNF-α was observed after stimulation with live bacteria or with purified LPS. Collectively, our data document a novel, fundamental function of IFN-αβ in boosting macrophage responses and host resistance against bacterial pathogens. These data may be useful to devise alternative strategies to treat bacterial infections.

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c-Jun Kinase Is a Critical Signaling Molecule in a Neonatal Model of Group B Streptococcal Sepsis

Cited by 44 publications

References 34 publications

C-Jun NH2 terminal kinase (JNK) is an essential mediator of Toll-like receptor 2-induced corneal inflammation

C-Jun NH2 terminal kinase (JNK) is an essential mediator of Toll-like receptor 2-induced corneal inflammation

Uses for JNK: the Many and Varied Substrates of the c-Jun N-Terminal Kinases

Type I IFN Signaling Is Crucial for Host Resistance against Different Species of Pathogenic Bacteria

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