Fish oil slows prostate cancer xenograft growth relative to other dietary fats and is associated with decreased mitochondrial and insulin pathway gene expression.

BACKGROUND: Previous mouse studies suggest that decreasing dietary fat content can slow prostate cancer (PCa) growth. To our knowledge, no study has yet compared the effect of multiple different fats on PCa progression. We sought to systematically compare the effect of fish oil, olive oil, corn oil and animal fat on PCa progression. METHODS: A total of 96 male severe combined immunodeficient mice were injected with LAPC-4 human PCa cells. Two weeks following injection, mice were randomized to a Western diet based on fish oil, olive oil, corn oil or animal fat (35% kilocalories from fat). Animals were euthanized when tumor volumes reached 1000 mm(3). Serum was collected at death and assayed for PSA, insulin, insulin-like growth factor-1 (IGF-1), IGF-1-binding protein-3 and prostaglandin E-2 (PGE-2) levels. Tumors were also assayed for PGE-2 and cyclooxygenase-2 levels, and global gene expression was analyzed using Affymetrix microarrays. RESULTS: Mice weights and tumor volumes were equivalent across groups at randomization. Overall, fish oil consumption was associated with improved survival relative to other dietary groups (P=0.014). On gene expression analyses, the fish oil group had decreased signal in pathways related to mitochondrial physiology and insulin synthesis/secretion. CONCLUSIONS: In this xenograft model, we found that consuming a diet in which fish oil was the only fat source slowed tumor growth and improved survival compared with that in mice consuming diets composed of olive oil, corn oil or animal fat. Although prior studies showed that the amount of fat is important for PCa growth, this study suggests that the type of dietary fat consumed may also be important.

Effect of intermittent fasting on prostate cancer tumor growth in a mouse model.

Caloric restriction (CR) has been shown to have anti-cancer properties. However, CR may be difficult to apply in humans secondary to compliance and potentially deleterious effects. An alternative is intermittent CR, or in the extreme case intermittent fasting (IF). In a previous small pilot study, we found 2 days per week of IF with ad libitum feeding on the other days resulted in trends toward prolonged survival of mice bearing prostate cancer xenografts. We sought to confirm these findings in a larger study. A total of 100 (7- to 8-week-old) male severe combined immunodeficiency mice were injected subcutaneously with 1 × 10(5) LAPC-4 prostate cancer cells. Mice were randomized to either ad libitum Western Diet (44% carbohydrates, 40% fat and 16% protein) or ad libitum Western Diet with twice-weekly 24 h fasts (IF). Tumor volumes and mouse bodyweights were measured twice weekly. Mice were killed when tumor volumes reached 1000 mm(3). Serum and tumor were collected for analysis of the insulin/insulin-like growth factor 1 (IGF-1) hormonal axis. Overall, there was no difference in mouse survival (P=0.37) or tumor volumes (P ≥ 0.10) between groups. Mouse body weights were similar between arms (P=0.84). IF mice had significantly higher serum IGF-1 levels and IGF-1/IGFBP-3 ratios at killing (P<0.001). However, no difference was observed in serum insulin, IGFBP-3 or tumor phospho-Akt levels (P ≥ 0.39). IF did not improve mouse survival nor did it delay prostate tumor growth. This may be secondary to metabolic adaptations to the 24 h fasting periods. Future studies are required to optimize CR for application in humans.

Preoperative predictors of blood loss at the time of radical prostatectomy: results from the SEARCH database.

The literature contains conflicting data on preoperative predictors of estimated blood loss (EBL) at radical retropubic prostatectomy (RRP). We sought to examine preoperative predictors of EBL at the time of RRP among patients from the SEARCH database to lend clarity to this issue. A total of 1154 patients were identified in the SEARCH database who underwent RRP between 1988 and 2008 and had EBL data available. We examined multiple preoperative factors for their ability to predict EBL using multivariate linear regression analysis. Median EBL was 900 ml (s.d. 1032). The 25th and 75th percentile for EBL were 600 and 1500 ml, respectively. EBL increased significantly with increasing body mass index (BMI) and increasing prostate size and decreased with more recent year of RRP (all P<0.001). The mean-adjusted EBL in normal-weight men (BMI<25 kg/m(2)) was 807 ml compared to 1067 ml among severely obese men (BM I>or=35 kg/m(2)). Predicted EBL for men with the smallest prostates (<20 g) was 721 ml, compared to 1326 ml for men with prostates >or=100 g. Finally, statistically significant differences between centers were observed, with mean-adjusted EBL ranging from 844 to 1094 ml. Both BMI and prostate size are predictors of increased EBL. Prostate size is of particular note, as a nearly twofold increased EBL was seen from the smallest (<20 g) to the largest prostates (>or=100 g). Over time, average EBL significantly decreased. Finally, significant differences in EBL were observed between centers. Patients with multiple risk factors should be forewarned they are at increased risk for higher EBL, which may translate into a greater need for blood transfusion.

Decreased SBPase activity alters growth and development in transgenic tobacco plants.

The effects of reduced SBPase activity on growth and development were examined in a set of transgenic tobacco plants produced using an antisense construct driven by the ribulose bisphosphate carboxylase, small subunit promoter. Photosynthetic carbon assimilation rates and carbohydrate levels in source leaves were decreased in the antisense plants. Growth rate and total shoot biomass were reduced in the SBPase antisense plants, even in plants where SBPase activity was reduced by only 25%. Floral biomass also decreased in response to reductions in SBPase activity and the onset of flowering was delayed by 5-10 d. This is the first demonstration of a link between reproductive biomass and reductions in Calvin cycle enzyme activity using antisense plants. Furthermore, unexpected changes in the growth and development of the antisense plants were evident. Small reductions in SBPase activity (above 50% wild type) resulted in shorter plants with only a small decrease in stem biomass and specific leaf area. In contrast, plants with larger reductions in SBPase activity had an increase in specific leaf area and attained heights similar to that of the wild-type plants but with a much reduced stem biomass, largely due to a decrease in xylem tissue. This bi-modal response of growth to reductions in SBPase activity has similarities to changes in leaf and stem anatomy and morphology that accompany light acclimation.

Changes of knowledge, attitudes, beliefs, and preference of bar owner and staff in response to a smoke-free bar law.

OBJECTIVE: To examine attitudinal changes of bar owners and staff regarding a smoke-free bar law. DESIGN: Bar owners and staff were random selected and telephone interviewed in June 1998, shortly after a smoke-free bar law was enacted, and October 2002. Similar instruments were used in both surveys to collect data on attitudes related to secondhand smoke (SHS) and behaviours related to the smoke-free bar law. PARTICIPANTS: 651 and 650 respondents worked for either stand alone bars or combination bars. MEASURES: Preference of working in a smoke-free environment, concerns of the effect of SHS, and how to comply with the law. RESULTS: The percentage of bar owners or staff working in stand alone bars who prefer to work in a smoke-free environment increased from 17.3% in 1998 to 50.9% in 2002 (p < 0.001). Significantly more respondents (45.5%) working in stand alone bars were concerned about the effects of SHS on their health, comparing to 21.6% in 1998 (p < 0.001). When patrons smoked in the bar, 82.1% of stand alone bar owners or staff in the 2002 survey would ask them to stop or to smoke outside, increased from only 43.0% in the 1998 survey (p < 0.001). CONCLUSION: A positive and significant attitudinal change related to the smoke-free bar law occurred among California bars.

California as a model.

One of every three persons who starts smoking falls ill and dies prematurely because he or she smoked. Smoking has been causally linked to heart disease, cancer, and respiratory diseases and continues to be the number one preventable cause of death in this country. To prevent these deaths and the incidence of these diseases, California's Tobacco Control Program was established in 1989 specifically to reduce tobacco use in the state. The strategy of the program is to "denormalize" tobacco. This strategy emphasizes three areas of programmatic activity: to counter pro-tobacco influences, to reduce exposure to environmental tobacco smoke, and to reduce access to tobacco products, with a focus on both social and commercial sources. A fourth priority area, cessation, is considered more of an outcome. California's Tobacco Control Program has touched the life of every Californian. Adult smoking prevalence in the state has gone from approximately 11% lower than the rest of the nation in 1988 to 20% lower in 1996. There are now approximately one million fewer smokers in California than would have been expected. Overall, per capita cigarette consumption has fallen by more than 50%. Seventy percent of adult smokers reported that they tried to quit in the last year. Exposure to secondhand smoke has plummeted. California's lung and bronchus cancer incidence is already declining at a significantly higher rate than that seen elsewhere in the nation. Youth smoking rates have also declined significantly. However, contrary to the message of its massive public relations campaign, the tobacco industry has not changed its stripes after the national tobacco settlement. They are still aggressively marketing their products to teenagers, ethnic minority groups, and young adults. They need to be combatted with renewed vigor by a vigilant health community.

pho3: a phosphorus-deficient mutant of Arabidopsis thaliana (L.) Heynh.

A novel P-deficient mutant of Arabidopsis thaliana, pho3, was isolated by screening for root acid phosphatase (APase) activity in plants grown under low-P conditions. pho3 had 30% less APase activity in roots than the wild type and, in contrast to wild-type plants, root APase activity did not increase in response to growth in low P. However, shoot APase activity was higher in pho3 than in the wild-type plants. In addition, the pho3 mutant had a P-deficient phenotype, even when grown in P-sufficient conditions. The total P content of 11-d-old pho3 plants, grown in agar media with a plentiful supply of P, was about 25% lower than the wild-type level in the shoot, and about 65% lower in the roots. In the rosette leaves of mature soil-grown pho3 plants the total P content was again reduced, to about 50% of wild-type levels. pho3 exhibited a number of characteristics normally associated with low-P stress, including severely reduced growth, increased anthocyanin content (at least 100-fold greater than the wild type in soil-grown plants) and starch accumulation. The results suggest that the mutant is unable to respond to low internal P levels, and may lack a transporter or a signalling component involved in regulating P nutrition.

Small decreases in SBPase cause a linear decline in the apparent RuBP regeneration rate, but do not affect Rubisco carboxylation capacity.

The response of net photosynthetic CO(2) uptake (A) to increasing leaf intercellular CO(2) concentration (c(i)) was determined in antisense Nicotiana tabacum plants, derived from six independent transformation lines, displaying a range of sedoheptulose-1, 7-bisphosphatase (SBPase) activities. The maximum in vivo ribulose-1,5-bisphosphate carboxylase/oxygenase (Rubisco) carboxylation (V(c,max)) and RuBP regeneration (J(max)) rates were calculated from the steady-state measurements of the A to c(i) response curves. In plants with reductions in SBPase activity of between 9% and 60%, maximum RuBP regeneration capacity declined linearly (r(2)=0.79) and no significant change in apparent in vivo Rubisco activity (V(c,max)) was observed in these plants. No correlation between V(c,max) and a decrease in capacity for RuBP regeneration was observed (r(2)=0.14) in the SBPase antisense plants. These data demonstrate that small decreases in SBPase activity limit photosynthetic carbon assimilation by reducing the capacity for RuBP regeneration.

Computer modelling and experimental evidence for two steady states in the photosynthetic Calvin cycle.

We present observations of photosynthetic carbon dioxide assimilation, and leaf starch content from genetically modified tobacco (Nicotiana tabacum) plants in which the activity of the Calvin cycle enzyme, sedoheptulose-1,7-bisphosphatase, is reduced by an antisense construct. The measurements were made on leaves of varying ages and used to calculate the flux control coefficients of sedoheptulose-1,7-bisphosphatase over photosynthetic assimilation and starch synthesis. These calculations suggest that control coefficients for both are negative in young leaves, and positive in mature leaves. This behaviour is compared to control coefficients obtained from a detailed computer model of the Calvin cycle. The comparison demonstrates that the experimental observations are consistent with bistable behaviour exhibited by the model, and provides the first experimental evidence that such behaviour in the Calvin cycle occurs in vivo as well as in silico.

Photosynthetic capacity is differentially affected by reductions in sedoheptulose-1,7-bisphosphatase activity during leaf development in transgenic tobacco plants.

The impact of reduced sedoheptulose-1,7-bisphosphatase (SBPase) activity on photosynthetic capacity and carbohydrate status was examined during leaf expansion and maturation in antisense transgenic tobacco (Nicotiana tabacum L. cv Samsun) plants. In wild-type plants, photosynthetic capacity was lowest in young expanding leaves and reached a maximum in the fully expanded, mature leaves. In contrast, the transgenic antisense SBPase plants had the highest photosynthetic rates in the young expanding leaves and lowest rates in the mature leaves. In the mature, fully expanded leaves of the transgenic plants photosynthetic capacity was closely correlated with the level of SBPase activity. However, in the youngest leaves of the SBPase antisense plants, photosynthetic rates were close to, or higher than, those observed in wild-type plants, despite having a lower SBPase activity than the equivalent wild-type leaves. Reductions in SBPase activity affected carbohydrate levels in both the mature and young developing leaves. The overall trend was for decreased SBPase activity to lead to reductions in carbohydrate levels, particularly in starch. However, these changes in carbohydrate content were also dependent on the developmental status of the leaf. For example, in young expanding leaves of plants with the smallest reductions in SBPase activity, the levels of starch were higher than in wild-type plants. These data suggest that the source status of the mature leaves is an important determinant of photosynthetic development.

An overview of the vaccine adverse event reporting system (VAERS) as a surveillance system. VAERS Working Group.

We evaluated the Vaccine Adverse Event Reporting System (VAERS), the spontaneous reporting system for vaccine-associated adverse events in the United States, as a public health surveillance system, using evaluation guidelines from the Centers for Disease Control and Prevention. We found that VAERS is simple for reporters to use, flexible by design and its data are available in a timely fashion. The predictive value positive for one severe event is known to be high, but for most events is unknown. The acceptability, sensitivity and representativeness of VAERS are unknown. The study of vaccine safety is complicated by underreporting, erroneous reporting, frequent multiple exposures and multiple outcomes.

Purification of active chloroplast sedoheptulose-1,7-bisphosphatase expressed in Escherichia coli.

Sedoheptulose-1,7-bisphosphatase (SBPase) is an enzyme unique to photosynthetic organisms and has a key role in regulating the photosynthetic Calvin cycle through which nearly all carbon enters the biosphere. This makes SBPase an appropriate target for intensive study. We have expressed wheat SBPase in Escherichia coli either with or without an N-terminal polyhistidine tag. The identity of the recombinant SBPases was confirmed by SDS-PAGE analysis and immunological detection with a specific antibody. Recombinant SBPase with a polyhistidine tag (His-SBPase) was obtained in soluble, active form and purified by one-step metal-chelate chromatography. Like the native enzyme, recombinant His-SBPase was specific for the substrate sedoheptulose-1,7-bisphosphate and required the presence of a reducing agent for activity. Polyclonal antibodies were raised against recombinant SBPase and were then used to determine relative levels of the enzyme in plant extracts. The availability of large amounts of active recombinant SBPase will also allow detailed structural studies by site-directed mutagenesis and X-ray crystallography.

Efficient strategy for the detection of mutations in acrogeric Ehlers-Danlos syndrome type IV.

cDNA encoding the C-terminal domain (nt2283 to 3714) of type III collagen was amplified by PCR in five overlapping products and examined for mutations in 13 patients with Ehlers-Danlos syndrome type IV (EDS IV) with uncharacterised lesions and in five control patients with known single base mutations. Six different point mutations were detected by denaturing gradient gel electrophoresis (DGGE), in addition to those in the known controls. Four of seven patients who had no point mutations in this region were shown to lack complete exons from their amplified cDNA. Mutations were detected in all patients with typical or acrogeric EDS IV, but only in one of four individuals with the atypical form of the disease.

Molecular cloning of the Arabidopsis thaliana sedoheptulose-1,7-biphosphatase gene and expression studies in wheat and Arabidopsis thaliana.

We report here the isolation and nucleotide sequence of genomic clones encoding the chloroplast enzyme sedoheptulose-1,7-bisphosphatase (SBPase) from Arabidopsis thaliana. The coding region of this gene contains eight exons (72-76 bp) and seven introns (75-91 bp) and encodes a polypeptide of 393 amino acids. Unusually, the 5' non-coding region contains two additional AUG codons upstream of the translation initiation codon. A comparison of the deduced Arabidopsis and wheat SBPase polypeptide sequences reveals 78.6%, identity. Expression studies showed that the level of SBPase mRNA in Arabidopsis and wheat is regulated in a light-dependent manner and is also influenced by the developmental stage of the leaf. Although the Arabidopsis SBPase gene is present in a single copy, two hybridizing transcripts were detected in some tissues, suggesting the presence of alternate transcription start sites in the upstream region.

Localization of the gene (LAMA4) to chromosome 6q21 and isolation of a partial cDNA encoding a variant laminin A chain.

Laminin is a basement membrane glycoprotein composed of three nonidentical chains, A, B1, and B2. Variant chains such as merosin and S-laminin have been found in different tissues. We have isolated a cDNA encoding a novel laminin A variant that hybridizes to a 6.45-kb mRNA. Using amplification of genomic DNA and flow-sorted chromosomes we have assigned the gene (LAMA4) for this new laminin A variant to chromosome 6. Fluorescence in situ hybridization of a YAC clone further localized the gene to 6q21.

A light- and developmentally-regulated DNA-binding interaction is common to the upstream sequences of the wheat Calvin cycle bisphosphatase genes.

We have characterised a DNA-binding interaction common to the upstream sequences of the wheat fructose-1,6-bisphosphatase (FBPase) and sedoheptulose-1,7-bisphosphatase (SBPase) genes. The recognition site for this sequence-specific binding activity, designated wheat FBPase factor (WF-1), is located within 125 bp of the transcription start site of each gene. Within these regions there are no sequence motifs similar to those shown to be important for light-regulated expression in other species. The binding activity was not detected in wheat root nuclear extracts, or in pea leaf extracts. There was a higher level of binding activity in light-grown than in dark-grown wheat leaves. The level was also found to decline when light-grown plants were given an extended dark treatment, but could be reinduced by light. Utilising the gradient of developmental maturity which exists within the wheat leaf it was found that WF-1 activity increases during leaf development.

Arabidopsis thaliana carbonic anhydrase: cDNA sequence and effect of CO2 on mRNA levels.

A full-length cDNA clone encoding carbonic anhydrase was isolated from an Arabidopsis thaliana (Columbia) leaf library. Comparison of the derived amino acid sequence obtained from this clone with those of pea and spinach reveals a considerable degree of identity. The carbonic anhydrase cDNA was used to probe the level of RNA encoding this protein in the leaves of plants grown in elevated CO2 (660 ppm). We have found that under these conditions the steady-state level of carbonic anhydrase mRNA was increased in comparison with control plants grown in normal atmospheric concentrations of CO2 (330 ppm). This raises the intriguing possibility that there exists in higher plants a mechanism for perceiving and responding to changes in environmental CO2 concentrations at the genetic level.