In smokers' lungs, excessive mucus clogs small airways, impairing respiration and promoting recurrent infection. A breakthrough in understanding this pathology was the realization that smoke could directly stimulate mucin synthesis in lung epithelial cells and that this phenomenon was dependent on the cell surface receptor for epidermal growth factor, EGFR. Distal steps in the smoke-triggered pathway have not yet been determined. We report here that the predominant airway mucin (MUC5AC) undergoes transcriptional up-regulation in response to tobacco smoke; this is mediated by an AP-1-containing response element, which binds JunD and Fra-2. These transcription factors require phosphorylation by upstream kinases JNK and ERK, respectively. Whereas ERK activation results from the upstream activation of EGFR, JNK activation is chiefly EGFR-independent. Our experiments demonstrated that smoke activates JNK via a Src-dependent, EGFRindependent signaling cascade initiated by smoke-induced reactive oxygen species. Taken together with our earlier results, these data indicate that the induction of mucin by smoke is the combined effect of mutually independent, reactive oxygen species activation of both EGFR and JNK.The primary cause of morbidity in chronic bronchitis is mucin overproduction, a phenomenon for which the molecular pathogenesis is unknown. Inflammatory cells are abundant in smokers' airways (1-3) and are capable of stimulating mucin production (4 -7), suggesting that at least some of the excessive mucin in smokers' lungs is secondary to inflammation.In addition, however, smoke itself can induce mucin synthesis in lung cells (8,9). The question of how this occurs is complex in that smoke, a composite of irritant molecules including acetaldehyde, hydroquinone, formaldehyde, benzo-[a]pyrene, cresol, nicotine, catechol, acrolein, coumarin, anthracene, nitrogen oxides, and heavy metals (10, 11) may act on lung epithelial cells in diverse ways. For example, the induction of cytochrome P450 by tobacco smoke (12) is mediated by binding of the aryl hydrocarbon nuclear receptor to a dioxin response element in the 5Ј-flank of the gene, but the induction of the ␥-glutamylcysteine synthetase heavy subunit (␥-GCS-HS) gene is mediated by the binding of a c-Jun/c-Jun homodimer to an AP-1-like response element (13).Previous reports have implicated the receptor for epidermal growth factor (EGFR) 1 in the induction of mucin gene MUC5AC by smoke (9). Consistent with a role for EGFR in mucin induction, an EGF response element has been identified 200 bp upstream of the MUC5AC gene (14). The response of this element to EGFR ligands EGF and transforming growth factor-␣ is mediated by Sp1. One might predict from these data that the induction of MUC5AC by smoke would depend on interaction between the EGF response element at Ϫ200 bp and Sp1.In contrast, in the present study we show that MUC5AC is controlled principally by a smoke response element ϳ3 kb upstream of the EGF response element. This element is AP-1-dependent and is bound by Ju...
Abstract-Many membranous organelles and protein complexes are normally transported anterograde within axons to the presynaptic terminal, and details of the motors, adaptors and cargoes have received significant attention. Much less is known about the transport in neurons of non-membrane bound particles, such as mRNAs and their associated proteins. We propose that herpes simplex virus type 1 (HSV) can be used to study the detailed mechanisms regulating long distance transport of particles in axons. A critical step in the transmission of HSV from one infected neuron to the next is the polarized anterograde axonal transport of viral DNA from the host infected nerve cell body to the axon terminal. Using the in vivo mouse retinal ganglion cell model infected with wild type virus or a mutant strain that lacks the protein Us9, we found that Us9 protein was necessary for long distance anterograde axonal transport of viral nucleocapsid (DNA surrounded by capsid proteins), but unnecessary for transport of virus envelope. Thus, we conclude that nucleocapsid can be transported independently down axons via a Us9-dependent mechanism.
Bacterial flagellin can interact with both Toll-like receptor 5 (TLR5) and the cell surface glycolipid, asialoGM1, to activate an innate immune response. The induction of mucin by flagellin in human lung epithelial cells (NCIH292) is dependent on asialoGM1 ligation, ATP receptor signaling, Ca2+ mobilization, and Erk1/2 activation. Conversely, the activation of NF-kappaB by flagellin is dependent on signaling through TLR5. These results prompted us to ask whether the flagellin-induced TLR5 signaling pathway was intersecting with or mutually independent of the nucleotide receptor pathway activated downstream of asialoGM1. Herein, we demonstrate that the release of ATP induced by flagellin is dependent on a Toll signaling cascade. Although Toll was able to activate NF-kappaB in the absence of extracellular ATP, Toll required ATP to activate Erk1/2. These results suggest interdependence between the asialoGM1 and TLR5 pathways and reveal a previously unsuspected role for autocrine extracellular ATP signaling in TLR signaling.
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