My-Anh Wioland scite author profile

CFTR (cystic fibrosis transmembrane conductance regulator), MDR1 (multidrug resistance), and MRP1 (multidrug resistance-associated protein), members of the ABC transporter superfamily, possess multiple functions, particularly Cl(-), anion, and glutathione conjugate transport and cell detoxification. They are also hypothesized to have a number of complementary functions. It is generally accepted that data obtained from nasal mucosa can be extrapolated to lower airway cell physiology. The aim of the present study was to investigate by immunohistochemistry the differential localization of CFTR, MDR1, and MRP1 in the normal mucosa of 10 human nasal turbinates. In ciliated epithelial cells, CFTR was inconstantly expressed at the apical cell surface, intense membranous labeling was observed for MDR1, and intense cytoplasmic labeling was observed for MRP1. In the glands, a higher level of expression was observed on serous cells, at the apical surface (for CFTR), on lateral membranes (for MDR1), and with an intracytoplasmic distribution (for MRP1). In conclusion, CFTR, MDR1 and MRP1 are expressed in the epithelium and glands of the nasal respiratory mucosa, but with different patterns of expression. These results suggest major roles for CFTR, MDR1, and MRP1 in serous glandular cells and a protective function for MDR1 and MRP1 in respiratory ciliated cells. (J Histochem Cytochem 48:1215-1222, 2000)

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Revisiting Cystic Fibrosis Transmembrane Conductance Regulator Structure and Function

Hanrahan

Wioland²

2004

Proceedings of the American Thoracic Society

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The cystic fibrosis transmembrane conductance regulator (CFTR) is a channel/enzyme which mediates passive diffusion of chloride and bicarbonate through epithelial cell membranes. It is expressed in many cell types throughout the body, but in the airways it is found mainly in secretory serous cells of the submucosal glands. CFTR belongs to a large super-family of ATP binding cassette transporters that have two nucleotide binding domains with characteristic sequences or "motifs". Although most other ATP binding cassette transporters consume ATP to actively transport various substrates, in CFTR the interactions of ATP with nucleotide binding domains control opening and closing of the channel pore (i.e., channel gating). Recent high resolution structures of bacterial nucleotide binding domains combined with new biochemical and electrophysiological studies of CFTR itself have led to major advances in our understanding of CFTR gating. For example, it is now clear that the ATPase activity of CFTR is not strictly required for its channel activity. CFTR has at least two distinct gating modes; one dependent on hydrolysis and the other requiring only stable ATP binding. In this article we discuss a working hypothesis for CFTR that incorporates these recent findings and discuss some interesting implications of the paradigm shift for other aspects of CFTR function and dysfunction.

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TLN-4601, a novel anticancer agent, inhibits Ras signaling post Ras prenylation and before MEK activation

Boufaied¹,

Wioland²,

Falardeau³

et al. 2010

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TLN-4601 is a structurally novel farnesylated dibenzodiazepinone discovered through DECIPHER, Thallion's proprietary drug discovery platform. The compound was shown to have a broad cytotoxic activity (low micromol/l) when tested in the NCI 60 tumor cell line panel and has shown in-vivo antitumor activity in several xenograft models. Related to its farnesylated moiety, the effect of TLN-4601 on Ras mitogen-activated protein kinase signaling was assessed. Downstream Ras signaling events, Raf-1, MEK, and ERK1/2 phosphorylation in MCF7 cells were evaluated by western blot analysis. TLN-4601 prevented epidermal growth factor-induced phosphorylation of Raf-1, MEK, and ERK1/2. This effect was time-dependent and dose-dependent with complete inhibition of protein phosphorylation within 4-6 h at 10 micromol/l. The inhibition of Ras signaling was not mediated by the inhibition of protein prenylation, documented by the lack of effect TLN-4601 on the prenylation of HDJ2 (specific substrate of farnesyltransferase), RAP1A (specific substrate of geranylgeranyl transferase-1), or Ras. As TLN-4601 did not inhibit EGFR, Raf-1, MEK or ERK1/2 kinase activities, the inhibitory effect of TLN-4601 on Ras signaling is not mediated by direct kinase inhibition. Using an Elk-1 trans-activation reporter assay, we found that TLN-4601 inhibits the MEK/ERK pathway at the level of Raf-1. Interestingly, TLN-4601 induces Raf-1 proteasomal-dependent degradation. These data indicate that TLN-4601 may inhibit the Ras-mitogen-activated protein kinase-signaling pathway by depleting the Raf-1 protein.

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369 POSTER The anticancer agent, ECO-4601, is a potent inhibitor of the Ras-mitogen-activated protein kinase pathway

Gourdeau¹,

Wioland²,

Falardeau³

2006

European Journal of Cancer Supplements

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My-Anh Wioland

CFTR, MDR1, and MRP1 Immunolocalization in Normal Human Nasal Respiratory Mucosa

Revisiting Cystic Fibrosis Transmembrane Conductance Regulator Structure and Function

TLN-4601, a novel anticancer agent, inhibits Ras signaling post Ras prenylation and before MEK activation

369 POSTER The anticancer agent, ECO-4601, is a potent inhibitor of the Ras-mitogen-activated protein kinase pathway

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