BACKGROUND: Pancreatic ductal adenocarcinoma (PDAC) has the poorest overall prognosis among gastrointestinal cancers; however, curative resection in early-stage PDAC greatly improves survival rates, indicating the importance of early detection. Because abnormal microRNA production is commonly detected in cancer, we investigated noninvasive precursor pancreatic intraepithelial neoplasia (PanIN) lesions for microRNA production as a potential early biomarker of PDAC.
The ligand binding domains of the human mineralocorticoid receptor (hMR) and glucocorticoid receptor (hGR) display a high sequence homology. Aldosterone and cortisol, the major mineralocorticoid and glucocorticoid hormones, are very closely related, leading to the cross-binding of these hormones to both receptors. The present study reports on the mechanism by which hMR and hGR are activated preferentially by their cognate hormones. We found that the ability of corticosteroids to stimulate the receptor's transactivation function is depending on the stability of the steroid-receptor complexes. In the light of a hMR structural model we propose that contacts through the corticosteroid C21 hydroxyl group are sufficient to stabilize hMR but not hGR and that additional contacts through the C11-and C17-hydroxyl groups are required for hGR.z 1999 Federation of European Biochemical Societies.
Pancreatic ductal adenocarcinoma (PDAC) is still the fourth leading cause of cancer-related deaths in Western countries, with increasing incidence. Neither effective prognostic markers nor therapies exist for this cancer. MicroRNAs are potent inhibitors of protein translation, and aberrantly expressed in many cancers. Because let-7 microRNA targets the K-ras oncogene, we aimed to characterize let-7 expression and function in PDAC in vitro and in vivo. Let-7 expression was quantified by real-time RT-PCR from resected tumors and matching adjacent tissue, and in endoscopic ultrasound-guided fine needle aspiration material from patients with PDAC. Let-7 is detected by reverse transcription in situ PCR in a PDAC tissue microarray. PDAC-derived cells were transfected with plasmid-based synthetic microRNAs or by lentiviral transduction, in vitro and in vivo. Let-7 microRNA expression is strongly reduced in PDAC samples, as compared with adjacent tissue. Let-7 is present in normal acinar pancreatic cells, and lost in poorly differentiated cancer samples. In addition, let-7 expression was repressed in patients with PDAC not eligible for surgery. Restoring let-7 levels in cancer-derived cell lines strongly inhibits cell proliferation, K-ras expression, and mitogen-activated protein kinase activation, but fails to impede tumor growth progression after intratumoral gene transfer or after implantation of Capan-1 cells stably overexpressing let-7 microRNA. We describe here for the first time the extensive loss of expression of let-7 in PDAC. In addition, this study provides the initial steps for a microRNA replacement therapy for this cancer.
Key residues of the human mineralocorticoid receptor (hMR) involved in the recognition of agonist and antagonist ligands were identified by alanine-scanning mutagenesis based on a homology model of the hMR ligand-binding domain. They were tested for their transactivation capacity and ability to bind agonists (aldosterone, cortisol) and antagonists (progesterone, RU26752). The three-dimensional model reveals two polar sites located at the extremities of the elongated hydrophobic ligand-binding pocket. Mutations of Gln776 and Arg817 in site I reduce the affinity of hMR for both agonists and antagonists and affect the capacity of hMR to activate transcription, suggesting that the C3-ketone group, common to all ligands, is anchored by these two residues conserved within the nuclear steroid receptor family. In contrast, mutations of Asn770 and Thr945 in the opposite site only affect the binding of agonists bearing the C21-hydroxyl group. The binding of hMR antagonists that exhibit a smaller size and faster off-rate kinetics compared with agonists is not affected. In the light of the hMR homology model, a new mechanism of antagonism is proposed in which the AF2-AD core region is destabilized by the loss of contacts between the antagonist and the helix H12 region.
Although the value of KRAS analysis in addition to EUS-FNAB is limited for distinguishing pancreatic mass lesions, when chronic pancreatitis presented as a pseudotumor a negative finding (wild-type KRAS), was useful in strongly suggesting a benign lesion.
Aldosterone exerts its biological effects through binding to mineralocorticoid receptor (MR). Ligand binding induces a receptor transconformation within the ligand-binding domain and dissociation of associated proteins from the receptor. The ligand-activated receptor binds as a dimer to the response elements present in the promoter region of target genes and initiates the transcription through specific interactions with the transcription machinery. The glucocorticoid hormone cortisol binds to the human MR (hMR) with the same affinity as aldosterone, but is less efficient than aldosterone in stimulating the hMR transactivation. The antimineralocorticoid spirolactones also bind to the hMR but induce a receptor conformation that is transcriptionally silent. In this report, we describe the key residues involved in the recognition of agonist and antagonist ligands and propose a two-step model with a dynamic dimension for the MR activation. In its unliganded state, MR is in an opened conformation in which folding into the ligand-binding competent state requires both the heat shock protein 90 and the C-terminal part of the receptor. An intermediate complex is generated by ligand binding, leading to a more compact receptor conformation. This transient complex is then converted to a transcriptionally active conformation in which stability depends on the steroid-receptor contacts.
A gain of function mutation resulting in the substitution of leucine for serine at codon 810 (S810L) in the human mineralocorticoid receptor (MR) is responsible for early-onset hypertension that is exacerbated in pregnancy. All steroids, including progesterone, that display antagonist properties when bound to the wild-type MR are able to activate the mutant receptor (MR(L810)). These findings suggest that progesterone may contribute to the dramatic aggravation of hypertension in MR(L810) carriers during pregnancy. However, the steroid(s) responsible for hypertension in MR(L810) carriers (men and nonpregnant women) has not yet been identified. Here we show that cortisone and 11-dehydrocorticosterone, the main cortisol and corticosterone metabolites produced in the distal nephron, where sodium reabsorption stimulated by aldosterone takes place, bind with high affinity to MR(L810). The potency with which cortisone and 11-dehydrocorticosterone bind to the mutant MR contrasts sharply with their low wild-type MR-binding capacity. In addition, cotransfection assays demonstrate that cortisone and 11-dehydrocorticosterone are potent activators of the MR(L810) trans-activation function. Because the plasma concentration of cortisol in humans is about 30-fold higher than that of corticosterone, these findings strongly suggest that cortisone is one of the endogenous steroids responsible for early-onset hypertension in men and nonpregnant women carrying the MR(L810) mutation.
Atrial natriuretic factor (ANF) might be beneficial in several cardiovascular disorders, but its poor oral absorption and rapid inactivation in vivo have so far prevented its use in therapeutics. We have assessed the role of enkephalinase (membrane metallo-endopeptidase, EC 3.4.24.11) in the in vivo inactivation of ANF in mice and healthy human volunteers by evaluating the effects of acetorphan, a potent inhibitor.In mice, the degradation of 125I-labeled ANF was markedly delayed, as shown by the levels of the intact peptide in the plasma and the kidney, a major target organ. The effect of acetorphan was due to the inhibition of enkephalinase activity, since it occurred at an EDs5 very close to this drug's ID50 for the inhibition of the specific binding of radioactive material to the kidney or lung peptidase that was measured after administration of [3H]acetorphan. The effects ofacetorphan were also studied in eight healthy human volunteers by using a randomized double-blind, placebo-controlled design. Oral administration of acetorphan elicited a lasting elevation of plasma ANFlike immunoreactivity, with a time course parallel to that of the inhibition of plasma enkephalinase activity. These effects were accompanied by significant increases in urinary volume and sodium excretion, two well-established renal responses to ANF peptides. These results indicate that enkephalinase plays a critical role in ANF degradation in vivo and that its inhibition enhances the levels of circulating endogenous ANF, which, in turn, results in diuresis and natriuresis. Enkephalinase inhibition may constitute another therapeutic approach to the treatment of cardiovascular diseases, such as congestive heart failure or essential hypertension, on which ANF is postulated to have a beneficial effect.
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