[Pulmonary nodular amyloidosis].

Amyloidosis is a systemic disease caused by extracellular accumulation of amyloid in different parts of the body. Pulmonary involvement is infrequent and nodular amyloidosis is extremely rare. We present the case of a 72-year-old man with chronic obstructive pulmonary disease in whom a 3-cm pulmonary nodule was discovered during routine radiological follow-up.

Type of resection and prognosis in lung cancer. Experience of a multicentre study.

Objective: Analysis of prognosis of the different types of resections for lung cancer defined by the Bronchogenic Carcinoma Cooperative Group of the Spanish Society of Pneumology and Thoracic Surgery (GCCB-S).

Methods: From October 1993 to September 1997, 2994 patients with bronchogenic carcinoma who underwent thoracotomy were prospectively recruited by the GCCB-S. Prior to recruitment, the GCCB-S had defined two types of non-resectional operations (diagnostic and exploratory thoracotomies) and three types of resections (complete-CR-: free resection margins, mediastinal nodal dissection, no extracapsular nodal involvement, no involvement of most distant removed nodes; relatively incomplete-RIR-: free resection margins, no mediastinal nodal dissection, unremoved nodes, involvement of most distant removed nodes, positive pleural effusion with no pleural implants; and incomplete-IR-: positive resection margins, extracapsular nodal involvement, unremoved positive nodes, positive pleural effusion with pleural implants).

Bimodal regulation of RAF by CNK in Drosophila.

Connector enhancer of KSR (CNK) is a multidomain-containing protein previously identified as a positive regulator of the RAS/MAPK pathway in Drosophila. Using transfection experiments and an RNAi-based rescue assay in Drosophila S2 cells, we demonstrate that CNK has antagonistic properties with respect to RAF activity. We show that CNK's N-terminal region contains two domains (SAM and CRIC) that are essential for RAF function.

Long chain fatty acids as modulators of gene transcription in preadipose cells.

During the last years, it has been clearly established that long-chain fatty acids act as modulators of gene expression in various tissues, such as adipose tissue, intestine and liver. This transcriptional action of fatty acids explains in part adaptation mechanisms of tissues to nutritional changes and especially to high-fat diets by increasing expression of proteins involved in lipid catabolism in liver and fatty acid uptake and utilization in other tissues. It is now clearly demonstrated that some of these transcriptional effects of fatty acids are mediated by activation of specific nuclear hormone receptors, called peroxisome proliferator-activated receptors (PPARs).