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Sleep Disturbance Affects Immune Factors in Clinical Liver Cancer Patients.
Wang, Z, Wang, Y, Huang, J, Xu, J, Chen, F, Zhu, Z, Gao, L, Qin, J, Liu, B, Liang, C
Current oncology (Toronto, Ont.). 2022;29(10):7943-7952
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Many studies have shown that sleep disorders promote tumor growth and can impair immunity at the cellular level. There is however a lack of research in patients with liver cancer. The aim of this study was the asses the quality of sleep and the prevalence of disturbed sleep in patients with liver cancer and to explore whether sleep quality influences immune factors. 210 patients with liver cancer were randomly divided into 2 groups: HBV (Hepatitis B virus) cirrhosis and non-HBV cirrhosis. Their sleep quality was evaluated using a questionnaire and then the patients were divided into 2 groups according to these scores. The association between sleep disturbances and immune factors was analysed by logistic regression models. Over half the patient experienced poor sleep quality. Sleep disturbances were higher in patients with liver cancer of non-HBV cirrhosis than with that coming from the HBV virus. A rise in CD3+ T cells and a reduction in NK cells are associated with sleep disturbances in patients with non-HBV cirrhosis liver cancer. Medicines that can promote sleep and therefore improve immune function might be beneficial. Non-pharmacological sleep interventions to improve sleep quality, should be a safer choice where there are complex drug side effects.
Abstract
BACKGROUND Sleep-wake disturbance is prevalent in patients with liver cancer, but there is no direct evidence of its association and related biological mechanisms. Our study was to assess quality of sleep and to describe prevalence of sleep disturbances in patients with different etiologies of liver cancer, especially to explore whether sleep quality influences immune factors. METHODS A total of 210 patients with liver cancer from August 2015 to December 2015 were randomly divided into two groups including HBV cirrhosis and non-HBV cirrhosis. The Pittsburgh Sleep Quality Index (PSQI) was used to evaluate their sleep quality, and then 202 patients enrolled in this study were divided into two groups according to their PSQI scores: PSQI ≤ 5 and PSQI > 5. The association between sleep disturbances and immune factors was analyzed by logistic regression models. RESULTS A total of 56.9% of liver cancer patients experienced poor sleep quality (PSQI > 5). The prevalence of sleep disturbances was significantly higher in patients with liver cancer of non-hepatitis B virus (HBV) cirrhosis than with that evolving from HBV cirrhosis (66.7% vs. 50%, p = 0.018). In non-HBV cirrhosis liver cancer patients, the PSQI > 5 group had a higher percentage of CD3+ T cells (71.06 ± 11.07 vs. 63.96 ± 14.18, p = 0.014) and lower natural killer (NK) cells (14.67 ± 9.65 vs. 20.5 ± 10.77, p = 0.014) compared with patients with PSQI ≤ 5. Logistic regression further confirmed that liver cancer patients without HBV cirrhosis are more prone to experience poor sleep with increased CD3+ T cells (OR = 1.07, 95% CI = 1.01-1.13, p = 0.030) and decreased NK cells (OR = 0.92, 95% CI = 0.85-0.98, p = 0.014). Our results indicate that increased CD3+ T cells and decreased NK cells are both associated with sleep disturbances in patients with liver cancer of non-HBV cirrhosis. CONCLUSIONS Most liver cancer patients suffer from sleep disturbances, especially evolving from non-HBV cirrhosis. A rise in CD3+ T cells and a reduction in NK cells are associated with sleep disturbances in patients with liver cancer of non-HBV cirrhosis.
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The effect of different sources of fish and camelina sativa oil on immune cell and adipose tissue mRNA expression in subjects with abnormal fasting glucose metabolism: a randomized controlled trial.
de Mello, VD, Dahlman, I, Lankinen, M, Kurl, S, Pitkänen, L, Laaksonen, DE, Schwab, US, Erkkilä, AT
Nutrition & diabetes. 2019;9(1):1
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Dietary fish oils, particularly omega-3 fatty acids eicosapentaenoic acid (EPA) and docosahexaenoic acid (DHA) found in oily fish, nuts and seeds have long been researched and purported to have both anti-inflammatory and glucose-stabilising effects when consumed orally and it is widely believed that in reducing low-grade inflammation and stabilising blood glucose levels, the risk of suffering from type 2 diabetes, heart disease or a stroke is reduced. Lean fish on the other hand has been far less researched with regards to its protective effects. This study was a randomised controlled study designed to assess and compare the protective effects of fish oils and Camelina Sativa oil (CSO - a seed oil containing alpha-linolenic acid) on inflammatory-related genes in subjects with suggestive pre-diabetes. Subjects were allocated to a randomised group and instructed to consume a given amount of either fatty fish, lean fish, camelina oil, or no fish/oil (control group). The study was carried out on 72 participants over a 12-week period. Although no significant change could be seen on inflammatory gene expression for the group consuming fatty fish, there was a modest decrease in inflammatory gene markers in the group consuming lean fish and a significant decrease in the group consuming CSO. Implications from this study suggest that CSO exerts its protective effect by reducing inflammation, therefore possibly decreasing the risk of strokes and cardiovascular episodes. The authors suggest that consuming a variety of fish, especially lean fish 4 times/ week could also play a protective role in cardiovascular health and type 2 diabetes.
Abstract
BACKGROUND/OBJECTIVES Molecular mechanisms linking fish and vegetable oil intakes to their healthy metabolic effects may involve attenuation of inflammation. Our primary aim was to examine in a randomized controlled setting whether diets enriched in fatty fish (FF), lean fish (LF) or ALA-rich camelina sativa oil (CSO) differ in their effects on the mRNA expression response of selected inflammation-related genes in peripheral blood mononuclear cells (PBMCs) and subcutaneous adipose tissue (SAT) in subjects with impaired fasting glucose. SUBJECTS/METHODS Samples from 72 participants randomized to one of the following 12-week intervention groups, FF (n = 19), LF (n = 19), CSO (n = 17) or a control group (n = 17), were available for the PBMC study. For SAT, 39 samples (n = 8, n = 10, n = 9, n = 12, respectively) were available. The mRNA expression was measured at baseline and 12 weeks by TaqMan® Low Density Array. RESULTS In PBMCs, LF decreased ICAM1 mRNA expression (P < 0.05), which was different (P = 0.06, Bonferroni correction) from the observed increase in the FF group (P < 0.05). Also, compared to the control group, LF decreased ICAM1 mRNA expression (P < 0.05). Moreover, the change in ICAM1 mRNA expression correlated positively with the intake of FF (P < 0.05) and negatively with the intake of LF (P < 0.05), independently of study group. A diet enriched in CSO, a rich source of alpha-linolenic acid (ALA), decreased PBMC IFNG mRNA expression (P < 0.01). The intake of CSO in the CSO group, but not the increase in plasma ALA proportions, correlated inversely with the IFNG mRNA expression in PBMCs (P = 0.08). In SAT, when compared with the control group, the effect of FF on decreasing IL1RN mRNA expression was significant (P < 0.03). CONCLUSION We propose that CSO intake may partly exert its benefits through immuno-inflammatory molecular regulation in PBMCs, while modulation of ICAM1 expression, an endothelial/vascular-related gene, may be more dependent on the type of fish consumed.
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Adipose tissue inflammation in breast cancer survivors: effects of a 16-week combined aerobic and resistance exercise training intervention.
Dieli-Conwright, CM, Parmentier, JH, Sami, N, Lee, K, Spicer, D, Mack, WJ, Sattler, F, Mittelman, SD
Breast cancer research and treatment. 2018;168(1):147-157
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Obese breast cancer patients have double the mortality compared to non-obese patients. This is thought to be mediated by low grade inflammation of the adipose (fat) tissue. The main type of immune cells involved in the process are called adipose tissue macrophages (ATMs), of which there are two types: M1 and M2 ATMs, with the M2 ATMs having a mostly anti-inflammatory effect, whilst the M1 ATMs are more pro-inflammatory and are thought to promote cancer growth and recurrence. This 16-week randomised pilot study assessed whether exercise can positively influence adipose tissue inflammation in breast cancer survivors. Participants were randomised to either an exercise (EX) group, who had three supervised exercise sessions per week with a combination of aerobic and resistance exercise, or a control (CON) group. Outcome measures included body composition, blood biomarkers for systemic inflammation and adipose tissue biopsies which were analysed for tissue inflammatory markers, including M1 and M2 ATMs. The EX group had significant improvements in body weight and composition, as well as in metabolic blood parameters (including those for lipid and glucose metabolism) and inflammatory markers, whilst the CON group experienced a worsening of these parameters. The EX participants also had a decrease in the pro-inflammatory M1 ATMs and an increase in the anti-inflammatory M2 ATMs. The authors state that the results were not only statistically, but also clinically significant. The authors conclude that moderate-to-vigorous intensity resistance and aerobic exercise can improve adipose tissue inflammation in obese breast cancer survivors.
Abstract
PURPOSE Obesity is a leading modifiable contributor to breast cancer mortality due to its association with increased recurrence and decreased overall survival rate. Obesity stimulates cancer progression through chronic, low-grade inflammation in white adipose tissue, leading to accumulation of adipose tissue macrophages (ATMs), in particular, the pro-inflammatory M1 phenotype macrophage. Exercise has been shown to reduce M1 ATMs and increase the more anti-inflammatory M2 ATMs in obese adults. The purpose of this study was to determine whether a 16-week exercise intervention would positively alter ATM phenotype in obese postmenopausal breast cancer survivors. METHODS Twenty obese postmenopausal breast cancer survivors were randomized to a 16-week aerobic and resistance exercise (EX) intervention or delayed intervention control (CON). The EX group participated in 16 weeks of supervised exercise sessions 3 times/week. Participants provided fasting blood, dual-energy X-ray absorptiometry (DXA), and superficial subcutaneous abdominal adipose tissue biopsies at baseline and following the 16-week study period. RESULTS EX participants experienced significant improvements in body composition, cardiometabolic biomarkers, and systemic inflammation (all p < 0.03 vs. CON). Adipose tissue from EX participants showed a significant decrease in ATM M1 (p < 0.001), an increase in ATM M2 (p < 0.001), increased adipose tissue secretion of anti-inflammatory cytokines such as adiponectin, and decreased secretion of the pro-inflammatory cytokines IL-6 and TNF- α (all p < 0.055). CONCLUSIONS A 16-week aerobic and resistance exercise intervention attenuates adipose tissue inflammation in obese postmenopausal breast cancer survivors. Future large randomized trials are warranted to investigate the impact of exercise-induced reductions in adipose tissue inflammation and breast cancer recurrence.
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Randomised clinical study: Aspergillus niger-derived enzyme digests gluten in the stomach of healthy volunteers.
Salden, BN, Monserrat, V, Troost, FJ, Bruins, MJ, Edens, L, Bartholomé, R, Haenen, GR, Winkens, B, Koning, F, Masclee, AA
Alimentary pharmacology & therapeutics. 2015;42(3):273-85
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Gluten is high in proline, an amino acid that is not naturally broken down in the human gastrointestinal tract. In patients with coeliac disease, proline-rich gluten reaches the small intestine and triggers an abnormal immune response, causing inflammation and microvilli damage. The aim of this randomised study was to test the efficacy of Aspergillus niger prolyl endoprotease (AN-PEP) on gluten degradation. AN-PEP belongs to a family of enzymes that has been previously known to break down proline in vitro. The study included 12 healthy volunteers aged 18-45 who were administered a low or high calorie meal containing 4.0g of gluten protein, with AN-PEP or placebo into the stomach. The findings of this study showed that AN-PEP significantly enhanced gluten digestion in the stomach before entering the duodenum of healthy volunteers. Based on this study, the authors conclude that AN-PEP is a promising option for degrading inadvertent dietary gluten consumption, and should be evaluated in target populations.
Abstract
BACKGROUND Aspergillus niger prolyl endoprotease (AN-PEP) efficiently degrades gluten molecules into non-immunogenic peptides in vitro. AIM: To assess the efficacy of AN-PEP on gluten degradation in a low and high calorie meal in healthy subjects. METHODS In this randomised, double-blind, placebo-controlled, cross-over study 12 healthy volunteers attended to four test days. A liquid low or high calorie meal (4 g gluten) with AN-PEP or placebo was administered into the stomach. Via a triple-lumen catheter gastric and duodenal aspirates were sampled, and polyethylene glycol (PEG)-3350 was continuously infused. Acetaminophen in the meals tracked gastric emptying time. Gastric and duodenal samples were used to calculate 240-min area under the curve (AUC0-240 min ) of ?-gliadin concentrations. Absolute ?-gliadin AUC0-240 min was calculated using duodenal PEG-3350 concentrations. RESULTS AN-PEP lowered α-gliadin concentration AUC0-240 min, compared to placebo, from low and high calorie meals in stomach (low: 35 vs. 389 μg × min/mL; high: 53 vs. 386 μg × min/mL; P < 0.001) and duodenum (low: 7 vs. 168 μg × min/mL; high: 4 vs. 32 μg × min/mL; P < 0.001) and absolute α-gliadin AUC0-240 min in the duodenum from low (2813 vs. 31 952 μg × min; P < 0.001) and high (2553 vs. 13 095 μg × min; P = 0.013) calorie meals. In the placebo group, the high compared to low calorie meal slowed gastric emptying and lowered the duodenal α-gliadin concentration AUC0-240 min (32 vs. 168 μg × min/mL; P = 0.001). CONCLUSIONS AN-PEP significantly enhanced gluten digestion in the stomach of healthy volunteers. Increasing caloric density prolonged gastric residence time of the meal. Since AN-PEP already degraded most gluten from low calorie meals, no incremental effect was observed by increasing meal caloric density. ClinicalTrials.gov, Number: NCT01335503; www.trialregister.nl, Number: NTR2780.