Oxidative stress and cerebrovascular dysfunction in mouse models of Alzheimer's disease.

Several factors have been implicated in Alzheimer's disease (AD) but there is no definite conclusion as to the main pathogenic agents. Mutations in the amyloid precursor protein (APP) that lead to increased production of amyloid beta peptide (A beta) are associated with the early-onset, familial forms of AD. However, in addition to ageing, the most common risk factors for the sporadic, prevalent form of AD are hypertension, hypercholesterolaemia, ischaemic stroke, the ApoE4 allele and diabetes, all characterized by a vascular pathology. In AD, the vascular pathology includes accumulation of A beta in the vessel wall, vascular fibrosis, and other ultrastructural changes in constituent endothelial and smooth muscle cells. Moreover, the ensuing chronic cerebral hypoperfusion has been proposed as a determinant factor in the accompanying cognitive deficits. In transgenic mice that overexpress mutated forms of the human APP (APP mice), the increased production of A beta results in vascular oxidative stress and loss of vasodilatory function. The culprit molecule, superoxide, triggers the synthesis of other reactive oxygen species and the sequestration of nitric oxide (NO), thus impairing resting cerebrovascular tone and NO-dependent dilatations. The A beta-induced cerebrovascular dysfunction can be completely abrogated in aged APP mice with antioxidant therapy. In contrast, in mice that overproduce an active form of the cytokine transforming growth factor-beta1 and recapitulate the vascular structural changes seen in AD, antioxidants have no beneficial effect on the accompanying cerebrovascular deficits. This review discusses the beneficial role and limitations of antioxidant therapy in AD cerebrovascular pathology.

Chromosome 9 deletions and recurrence of superficial bladder cancer: identification of four regions of prognostic interest.

In a previous study, loss of heterozygosity (LOH) of 28 chromosome 9 microsatellite markers was assessed on 139 Ta/T1 bladder tumors. LOH at one or more loci was detected in 67 tumors, 62 presenting subchromosomal deletions. One hundred and thirty-three of these patients have now been followed for up to 8 years. The purpose of the present study was to evaluate the potential biological significance of chromosome 9 deletions in superficial bladder tumors at initial diagnosis. High grade was associated with LOH (P=0.004). Large tumors carried more frequently 9p deletions (P=0.022). Female patients had more chromosome 9q LOH than male patients did (P=0.010). Chromosome 9 LOH at all loci was associated with an elevated risk of recurrence but four regions were associated with a particularly high risk of recurrence. Multivariate analysis taking into account grade, stage, size and number of tumors showed that tumors deleted in the regions 9ptr-p22, 9q22.3, 9q33, and 9q34 recurred significantly more rapidly than those without deletions (Recurrence rate ratio=2.32, 2.53, 2.52 and 2.43 respectively). Log-rank statistics comparing Kaplan-Meier survival curves for the same chromosomal regions confirmed the correlation (P=0.0002, 0.010, 0.002 and 0.009 respectively). Only four patients progressed to muscle-invasive disease. They all had extensive deletions on 9q but none had deletions at 9ptr-p22. This study suggests a link between chromosome 9 anomalies and recurrence of superficial bladder cancer.

Four tumor suppressor loci on chromosome 9q in bladder cancer: evidence for two novel candidate regions at 9q22.3 and 9q31.

The most common genetic alteration identified in transitional cell carcinoma (TCC) of the bladder is loss of heterozygosity (LOH) on chromosome 9. However, localization of tumor suppressor genes on 9q has been hampered by the low frequency of subchromosomal deletions. We have analysed 139 primary, initial low stage TCC of the bladder using a panel of 28 microsatellite markers spanning chromosome 9 at an average distance of 5 Mb, following a primer-extension preamplification (PEP) technique. Sixty-seven (48%) tumors showed LOH at one or more loci and partial deletions were detected in 62 (45%) tumors; apparent monosomy 9 was detected in only five (4%) tumors. Deletions were more frequent on 9q (44%) than on 9p (23%), the latter being mostly associated with 9q deletion, suggesting that alteration of genes on 9q may be an early event associated with superficial papillary tumors. Combined data from the cases with partial 9q deletions displayed four candidate regions for tumor suppressor loci, based on the frequency of deletion observed and tumors with unique deletions at these sites. In two tumors, the unique partial deletion comprised D9S12 at 9q22.3, a region encompassing loci for the Gorlin syndrome and multiple self-healing squamous epithelioma gene. In two other tumors, the single LOH was identified at the D9S172 locus at 9q31-32 where the dysautonia and Fukuyama-type congenital muscular dystrophy genes have been located. One tumor showed unique LOH at the GSN locus at 9q33, a region frequently deleted in other sporadic tumors while the fourth region of deletion was observed at 9q34 between ASS and ABL-1, in two tumors. This region is frequently deleted in tumors and encompasses the locus for the hereditary hemorrhagic telangiectasia gene. These findings suggest four target regions on 9q within which suppressor genes for TCC may reside.