Comparative proteomic analysis of bronchoalveolar lavage of familial and sporadic cases of idiopathic pulmonary fibrosis.

Idiopathic pulmonary fibrosis (IPF) is a chronic lung disease characterized by progressive deterioration of the alveolar integrity. Among IPF identified phenotypes, that of familial (f-)IPF is usually associated with several gene mutations which are seldom observed in sporadic (s-)IPF. This study aimed at investigating the molecular patterns and variability in f-IPF and s-IPF patients through a differential proteomic analysis. Protein patterns of bronchoalveolar lavage fluid (BALF) samples from 10 familial and 17 sporadic IPF patients were compared using 2D electrophoresis and mass spectrometry. Principal component analysis (PCA) was applied to proteomic data and an enrichment analysis was also performed to characterize specific pathogenic mechanisms and to identify potential biomarkers. BALF samples from f-IPF showed 87 protein spots differentially expressed than those from s-IPF samples; once identified, these spots revealed 22 unique proteins. The functional analysis showed that the endothelial reticulum stress probably plays a central pathogenetic role in f-IPF with an up-regulation of proteins involved in wounding and immune responses, coagulation system, and ion homeostasis. Up-regulated proteins in the s-IPF group were those involved in the oxidative stress response. PCA analysis of differentially expressed proteins clearly distinguished f-IPF from s-IPF patients, and in agreement with radiological and histological patterns, pointed out a higher heterogeneity in f-IPF than s-IPF samples. The 'Slit/Robo signaling', 'clathrin-coated vesicle' and 'cytoskeleton remodelling', were extrapolated by 'pathways analysis' and the results of 'diseases (by biomarkers)' highlighted a 'connective tissue and autoimmune disease', two aspects of increasing interest in IPF.

A functional proteomics approach to the comprehension of sarcoidosis.

Pulmonary sarcoidosis (Sar) is an idiopathic disease histologically typified by non-caseating epitheliod cell sarcoid granulomas. A cohort of 37 Sar patients with chronic persistent pulmonary disease was described in this study. BAL protein profiles from 9 of these Sar patients were compared with those from 8 smoker (SC) and 10 no-smoker controls (NSC) by proteomic approach. Principal Component Analysis was performed to clusterize the samples in the corresponding conditions highlighting a differential pattern profiles primarily in Sar than SC. Spot identification reveals thirty-four unique proteins involved in lipid, mineral, and vitamin Dmetabolism, and immuneregulation of macrophage function. Enrichment analysis has been elaborated by MetaCore, revealing 14-3-3ε, α1-antitrypsin, GSTP1, and ApoA1 as "central hubs". Process Network as well as Pathway Maps underline proteins involved in immune response and inflammation induced by complement system, innate inflammatory response and IL-6signalling. Disease Biomarker Network highlights Tuberculosis and COPD as pathologies that share biomarkers with sarcoidosis. In conclusion, Sar protein expression profile seems more similar to that of NSC than SC, conversely to other ILDs. Moreover, Disease Biomarker Network revealed several common features between Sar and TB, exhorting to orientate the future proteomics investigations also in comparative BALF analysis of Sar and TB.

A complex mosaicism 45,X/46,X,del(Xq)/46,X,idic(Xq) in a patient with secondary amenorrhea.

A complex mosaicism involving the X chromosome was found in a 35-year-old female affected by secondary amenorrhea and short stature. Her karyotype was: 45,X[20]/46,X,del(X)(pter-->q26::qter)[15]/46,X,idic(X)(pter-->q26::q26-->pter)[9]. No cell contained both abnormal X chromosomes. This observation would suggest a possible mechanism underlying the formation of isodicentric chromosomes.

Molecular characterization of Fanconi anaemia group C (FAC) gene polymorphisms.

Fanconi anaemia (FA) is a genetically heterogeneous disease with defects in at least five genes. The gene for complementation group C (FAC) has been cloned and mapped to chromosome 9q22.3 in the interval between D9S280 and D9S287. Linkage analysis is a rapid tool for the exclusion of FA families from complementation group C. The currently available markers are informative microsatellites flanking FAC and an intragenic restriction fragment length polymorphism (RFLP). In this paper, the identification of three CA polymorphic repeats localized in introns-1a, 2 and 3 and one rare variant in exon 2 are reported. The new microsatellites will enable more accurate analysis not only of FA but also in families affected by multiple self-healing squamous epitheliomata (ESS1) and nevoid basal cell carcinoma (NBCCS), since the genes of both syndromes have been mapped in the same interval as FAC.

Scanning the first part of the neurofibromatosis type 1 gene by RNA-SSCP: identification of three novel mutations and of two new polymorphisms.

Neurofibromatosis type 1 (NF1) of von Recklinghausen is a common autosomal dominant disorder, characterized by peripheral neurofibromas, café-au-lait spots and Lisch nodules of the iris. The high mutation rate at the NF1 locus results in a wide range of molecular abnormalities. We have scanned 14 different exons from the first part of the NF1 gene using the RNA-single strand conformation polymorphism (RNA-SSCP) method in a series of 40 NF1 patients. Three novel mutations, two nonsense and one missense, and two polymorphisms have been detected in familial cases. Genotype-phenotype correlations have been investigated, but no particular association has been detected. After this screening, the majority of NF1 chromosomes has not yet been characterized, confirming the difficulty in detecting the defect underlying NF1 in most families, even following extensive DNA analysis.

Characterization of the 5' region of the Fanconi anaemia group C (FACC) gene.

Fanconi anaemia (FA) is an autosomal recessive disease characterised by progressive pancytopenia, chromosome instability and an increased risk of cancer. The Fanconi Anaemia Complementation Group C (FACC) gene is mutated in patients of complementation group C. Several different forms of FACC mRNA that share the same coding region have been isolated. At least two species result from the use of alternative exons at the 5' end and three result from the use of distinct polyadenylation signals. As a first step toward the characterization of this gene we have isolated the genomic clones corresponding to the 5' region, including a putative promoter and two alternate 5' exons. These exons, named -1 and -1a, were found to be separated by a small intron, with exon -1 located 5' to exon -1a. Further, these exons are flanked by consensus sequences of donor sites at the 5' ends of introns. An acceptor splice site was not evident 5' of exon -1a, suggesting that exon -1 is not spliced onto exon -1a. The sequences upstream of exons -1 and -1a have no obvious TATA or CAAT boxes but include CG-rich sequences. Functional analysis of the sequence upstream of the putative transcription start site of both alternative exons indicates that the region upstream exon -1 is sufficient to drive the expression of the luciferase reporter gene in CaCo-2 cells and that the transcriptional regulation of this gene is complex.