Correction: DHA Supplemented in Peptamen Diet Offers No Advantage in Pathways to Amyloidosis: Is It Time to Evaluate Composite Lipid Diet?

[This corrects the article DOI: 10.1371/journal.pone.0024094.].

DHA supplemented in peptamen diet offers no advantage in pathways to amyloidosis: is it time to evaluate composite lipid diet?

Numerous reports have documented the beneficial effects of dietary docosahexaenoic acid (DHA) on beta-amyloid production and Alzheimer's disease (AD). However, none of these studies have examined and compared DHA, in combination with other dietary nutrients, for its effects on plaque pathogenesis. Potential interactions of DHA with other dietary nutrients and fatty acids are conventionally ignored. Here we investigated DHA with two dietary regimes; peptamen (pep+DHA) and low fat diet (low fat+DHA). Peptamen base liquid diet is a standard sole-source nutrition for patients with gastrointestinal dysfunction. Here we demonstrate that a robust AD transgenic mouse model shows an increased tendency to produce beta-amyloid peptides and amyloid plaques when fed a pep+DHA diet. The increase in beta-amyloid peptides was due to an elevated trend in the levels of beta-secretase amyloid precursor protein (APP) cleaving enzyme (BACE), the proteolytic C-terminal fragment beta of APP and reduced levels of insulin degrading enzyme that endoproteolyse beta-amyloid. On the contrary, TgCRND8 mice on low fat+DHA diet (based on an approximately 18% reduction of fat intake) ameliorate the production of abeta peptides and consequently amyloid plaques. Our work not only demonstrates that DHA when taken with peptamen may have a tendency to confer a detrimental affect on the amyloid plaque build up but also reinforces the importance of studying composite lipids or nutrients rather than single lipids or nutrients for their effects on pathways important to plaque development.

Amelioration of cystic fibrosis intestinal mucous disease in mice by restoration of mCLCA3.

BACKGROUND & AIMS: Mice deficient of the cystic fibrosis (CF) transmembrane conductance regulator (CFTR) exhibit severe intestinal lesions, particularly mucous overproduction/secretion and accumulation, which is similar to meconium ileus in CF patients. Moreover, severity of the intestinal disease in CF mice is strongly influenced by genetic modifiers, and CFTR deficiency affects the expression of multiple secondary genes that may impact on the phenotype. The murine orthologue of human hCLCA1 (mCLCA3) is expressed by goblet cells and implicated in their normal function, particularly with mucus production/secretion that is exaggerated in CF; however, its influence on the CF intestinal disease, although suggested, remains unclear. METHODS: To investigate the role of mCLCA3 on the CF intestinal disease in mice, its expression in this tissue has been assessed, and a CF mouse line maintaining elevated mCLCA3 levels has been developed and comprehensively characterized. RESULTS: Expression of mCLCA3 is significantly reduced in CF mouse intestines, although the number of goblet cells is elevated, indicating marked reduction per cell. Importantly, correction of this deficiency results in amelioration of the mucous-based disease leading to a marked improvement of intestinal pathology and survival, although goblet cell hyperplasia and hypertrophy were augmented. This intestinal amelioration did not appear to be related to rectification of the CF electrophysiologic defect. CONCLUSIONS: mCLCA3 has a role in intestinal goblet cell function that includes modification of the mucous properties and/or secretion that are altered in CF. Thus, elevation of mCLCA3 (hCLCA1) levels could provide a means to reduce intestinal mucous-based lesions in CF and related diseases.

Expression of S100A8 correlates with inflammatory lung disease in congenic mice deficient of the cystic fibrosis transmembrane conductance regulator.

BACKGROUND: Lung disease in cystic fibrosis (CF) patients is dominated by chronic inflammation with an early and inappropriate influx of neutrophils causing airway destruction. Congenic C57BL/6 CF mice develop lung inflammatory disease similar to that of patients. In contrast, lungs of congenic BALB/c CF mice remain unaffected. The basis of the neutrophil influx to the airways of CF patients and C57BL/6 mice, and its precipitating factor(s) (spontaneous or infection induced) remains unclear. METHODS: The lungs of 20-day old congenic C57BL/6 (before any overt signs of inflammation) and BALB/c CF mouse lines maintained in sterile environments were investigated for distinctions in the neutrophil chemokines S100A8 and S100A9 by quantitative RT-PCR and RNA in situ hybridization, that were then correlated to neutrophil numbers. RESULTS: The lungs of C57BL/6 CF mice had spontaneous and significant elevation of both neutrophil chemokines S100A8 and S100A9 and a corresponding increase in neutrophils, in the absence of detectable pathogens. In contrast, BALB/c CF mouse lungs maintained under identical conditions, had similar elevations of S100A9 expression and resident neutrophil numbers, but diverged in having normal levels of S100A8. CONCLUSION: The results indicate early and spontaneous lung inflammation in CF mice, whose progression corresponds to increased expression of both S100A8 and S100A9, but not S100A9 alone. Moreover, since both C57BL/6 and BALB/c CF lungs were maintained under identical conditions and had similar elevations in S100A9 and neutrophils, the higher S100A8 expression in the former (or suppression in latter) is a result of secondary genetic influences rather than environment or differential infection.