Adam S. Venable

Reduced inflammatory and muscle damage biomarkers following oral supplementation with bioavailable curcumin

Background Exercise-Induced Muscle Damage (EIMD) and delayed onset muscle soreness (DOMS) impact subsequent training sessions and activities of daily living (ADL) even in active individuals. In sedentary or diseased individuals, EIMD and DOMS may be even more pronounced and present even in the absence of structured exercise. Methods The purpose of this study was to determine the effects of oral curcumin supplementation (Longvida® 400 mg/days) on muscle & ADL soreness, creatine kinase (CK), and inflammatory cytokines (TNF-α, IL-6, IL-8, IL-10) following EMID (eccentric-only dual-leg press exercise). Subjects (N = 28) were randomly assigned to either curcumin (400 mg/day) or placebo (rice flour) and supplemented 2 days before to 4 days after EMID. Blood samples were collected prior to (PRE), and 1, 2, 3, and 4 days after EIMD to measure CK and inflammatory cytokines. Data were analyzed by ANOVA with P < 0.05. Results Curcumin supplementation resulted in significantly smaller increases in CK (− 48%), TNF-α (− 25%), and IL-8 (− 21%) following EIMD compared to placebo. We observed no significant differences in IL-6, IL-10, or quadriceps muscle soreness between conditions for this sample size. Conclusions Collectively, the findings demonstrated that consumption of curcumin reduced biological inflammation, but not quadriceps muscle soreness, during recovery after EIMD. The observed improvements in biological inflammation may translate to faster recovery and improved functional capacity during subsequent exercise sessions. General significance These findings support the use of oral curcumin supplementation to reduce the symptoms of EIMD. The next logical step is to evaluate further the efficacy of an inflammatory clinical disease model.

Image-based cytometry reveals three distinct subsets of activated granulocytes based on phagocytosis and oxidative burst

Granulocytes play a key role in innate immunity and the most common functional assays are phagocytosis and oxidative burst. The purpose of this technical note is to use image‐based flow cytometry to divide activated granulocytes into unique subsets based on their degree of phagocytosis and oxidative burst in response to different experimental incubations. Prior to the experiments, all reagents were titered to determine the lowest dose that resulted in an acceptable signal to noise ratio. Heparinized, whole blood (100 µl) was mixed with one of two bioparticles (E. coli and S. aureus) and DHE (10 µg/ml) and incubated for 5, 10, 20, 40, 60, 80, 100, 120, and 140 min in a 37°C water bath. An additional tube kept on ice was used as a negative control. All subsequent processing steps were completed on ice in the dark to minimize additional activation of cells. After the 37°C incubation, N‐ethylmaleimide (15 mM) was added to halt phagocytosis, preventing the uptake of additional microparticles. Suspensions were labeled with CD66b‐APC and CD45‐APCeFluor780 for 60 min and a fix/lyse solution was added. Prior to acquisition, 7AAD was added to stain nuclear DNA. A minimum of 5,000 granulocyte (CD66b+) events were acquired using a Millipore‐Amnis FlowSight equipped with blue (488 nm, 60 mW), red (642 nm, 100 mW), and side scatter (785 nm, 12 mW) lasers. Samples were compensated and analyzed using Amnis IDEAS software (v.5.0.983.0). Image‐based analysis allowed us to divide activated granulocytes into three distinct subsets, whose relative abundance changed as a function of both bioparticle type and incubation length. The method described in this technical note represents a potential novel adaptation to common methods of assessing granulocyte function. More research is needed to test and validate our image‐based method in clinical conditions that impair granulocyte function.

Natural cocoa consumption: Potential to reduce atherogenic factors?

Short-term consumption of flavanol-rich cocoa has been demonstrated to improve various facets of vascular health. The purpose of the present study was to determine the effect of 4 weeks of natural cocoa consumption on selected cardiovascular disease (CVD) biomarkers in young (19-35 years) women of differing body mass indices (BMI; normal, overweight or obese). Subjects (n = 24) consumed a natural cocoa-containing product (12.7 g natural cocoa, 148 kcal/serving) or an isocaloric cocoa-free placebo daily for 4 weeks in a random, double-blind manner with a 2-week washout period between treatment arms. Fasted (>8-h) blood samples were collected before and after each 4-week period. Serum was analyzed to determine lipid profile (chemistry analyzer) and CVD biomarkers (26 biomarkers). EDTA-treated blood was used to assess monocytes (CD14, CD16, v11b and CD62L), while citrate-treated blood was used to measure changes in endothelial microparticles (EMPs; CD42a-/45-/144+) by flow cytometry. Natural cocoa consumption resulted in a significant decrease in haptoglobin (P = .034), EMP concentration (P = .017) and monocyte CD62L (P = .047) in obese compared to overweight and normal-weight subjects. Natural cocoa consumption regardless of BMI group was associated with an 18% increase in high-density lipoprotein (P = .020) and a 60% decrease in EMPs (P = .047). Also, obese subjects experienced a 21% decrease in haptoglobin (P = .034) and a 24% decrease in monocyte CD62L expression in (P = .047) following 4 weeks of natural cocoa consumption. Collectively, these findings indicate that acute natural cocoa consumption was associated with decreased obesity-related disease risk. More research is needed to assess the stability of the observed short-term changes.

An analysis of endothelial microparticles as a function of cell surface antibodies and centrifugation techniques

Chronic vascular disease is partially characterized by the presence of lesions along the vascular endothelial wall. Current FDA-approved clinical techniques lack the ability to measure very early changes in endothelial cell health. When endothelial cells are damaged, they release endothelial microparticles (EMPs) into circulation. Thus, blood EMP concentration may represent a useful cardiovascular disease biomarker. Despite the potential value of EMPs, current flow cytometry techniques may not consistently distinguish EMPs from other small cell particles. The purpose of this study was to use imaging flow cytometry to modify existing methods of identifying EMPs based on cell-surface receptor expression and visual morphology. Platelet poor plasma (PPP) was isolated using four different techniques, each utilizing a two-step serial centrifugation process. The cell-surface markers used in this study were selected based on those that are commonly reported in the literature. PPP (100μL) was labeled with CD31, CD42a, CD45, CD51, CD66b, and CD144 for 30-min in dark on ice. Based on replicated experiments, EMPs were best identified by cell-surface CD144 expression relative to other commonly reported EMP markers (CD31 & CD51). It is important to note that contaminating LMPs, GMPs, and PMPs were thought to be removed in the preparation of PPP. However, upon analysis of prepared samples staining CD31 against CD51 revealed a double-positive population that was less than 1% EMPs. In contrast, when using CD144 to identify EMPs, ~87% of observed particles were free of contaminating microparticles. Using a counterstain of CD42a, this purity can be improved to over 99%. More research is needed to understand how our improved EMP measurement method can be used in experimental models measuring acute vascular responses or chronic vascular diseases.

Using image-based flow cytometry to measure monocyte oxidized LDL phagocytosis: A potential risk factor for CVD?

Obesity and cardiovascular disease is a worldwide health concern that has been a major focus in research for several decades. Among these diseases, atherosclerosis is one of the leading causes of death and disability nationwide. Circulating monocytes are believed to be primary cells responsible for foam cell formation. The present report describes a novel method for measuring monocyte oxLDL phagocytosis capacity using image-based flow cytometry. Human venous blood monocytes were incubated with different concentrations of oxLDL for different lengths of time to optimize the assay. High (post-meal) and low (pre-meal) responder samples were generated by feeding human subjects a high-fat (~85% of daily fat allowance), high-calorie (~65% of daily calorie needs) meal. This is a relevant model with respect to obesity and risk of developing atherogenesis. After the functional assay, classic (CD14+/CD16-) and pro-inflammatory (CD14+/CD16+) monocytes were assessed for oxLDL uptake, adhesion molecule expression (CD11b and CD18), and scavenger receptor expression (CD36) using an image-based flow cytometer (FlowSight). The present method represents a novel advance in methods available to detect the propensity of circulating monocytes to become intima foam cells. We found the assay to be most effective at separating high from low responder samples when using a fixed oxLDL concentration (120 μL/mL) and incubation length (1-h). In a clinical application, this method demonstrated that consuming a single high-fat meal causes an increase in the proportion of monocyte oxLDL phagocytosis and their adhesion capacity, suggesting a higher propensity to become foam cells.

A shirt containing multistage phase change material and active cooling components was associated with increased exercise capacity in a hot, humid environment

Abstract Recent advances in clothing design include the incorporation of phase change materials (PCM) and other active cooling components (ACC) to provide better body heat dissipation. The purpose of this study was to determine the effect of wearing a shirt containing multistage PCM/ACC on exercise capacity at low (5.0), moderate–high (7.5) and extreme (9.0) levels of the physiological strain index (PSI). Fourteen individuals tested two shirts (control vs. cooling) during 45-min of interval running in a hot, humid (35 ± 1 °C; 55 ± 6% RH) environment. The cooling shirt resulted in an 8% improvement in exercise capacity at a PSI of 7.5 (p < 0.05). The observed increase in exercise capacity would likely translate to a significant improvement in exercise performance. More research is needed to determine a best practice approach for the use of cooling clothing as a counter to exercise-induced heat exposure. Practitioner Summary: In this report, we demonstrate that when forced to exercise in a hot, humid environment, an individual’s exercise capacity may increase by as much as 8% when wearing a shirt composed of multistage phase change material and active cooling components.

Comparison of techniques for the measurement of skin temperature during exercise in a hot, humid environment

Exercising or working in a hot, humid environment can results in the onset of heat-related illness when an individuals temperature is not carefully monitored. The purpose of the present study was to compare three techniques (data loggers, thermal imaging, and wired electrodes) for the measurement of peripheral (bicep) and central (abdominal) skin temperature. Young men and women (N = 30) were recruited to complete the present study. The three skin temperature measurements were made at 0 and every 10-min during 40-min (60% VO2max) of cycling in a hot (39±2°C), humid (45±5% RH) environment. Data was statistically analyzed using the Bland-Altman method and correlation analysis. For abdominal skin temperature, the Bland-Altman limits of agreement indicated that data loggers (1.5) were a better index of wired than was thermal imaging (3.5), For the bicep skin temperature the limits of agreement was similar between data loggers (1.9) and thermal (1.9), suggesting the both were suitable measurements. We also found that when skin temperature exceeded 35°C, we observed progressively better prediction between data loggers, thermal imaging, and wired skin sensors. This report describes the potential for the use of data loggers and thermal imaging to be used as alternative measures of skin temperature in exercising, human subjects.

Image-based Flow Cytometry Technique to Evaluate Changes in Granulocyte Function In Vitro

Granulocytes play a key role in the body’s innate immune response to bacterial and viral infections. While methods exist to measure granulocyte function, in general these are limited in terms of the information they can provide. For example, most existing assays merely provide a percentage of how many granulocytes are activated following a single, fixed length incubation. Complicating matters, most assays focus on only one aspect of function due to limitations in detection technology. This report demonstrates a technique for simultaneous measurement of granulocyte phagocytosis of bacteria and oxidative burst. By measuring both of these functions at the same time, three unique phenotypes of activated granulocytes were identified: 1) Low Activation (minimal phagocytosis, no oxidative burst), 2) Moderate Activation (moderate phagocytosis, some oxidative burst, but no co-localization of the two functional events), and 3) High Activation (high phagocytosis, high oxidative burst, co-localization of phagocytosis and oxidative burst). A fourth population that consisted of inactivated granulocytes was also identified. Using assay incubations of 10, 20, and 40-min the effect of assay incubation duration on the redistribution of activated granulocyte phenotypes was assessed. A fourth incubation was completed on ice as a control. By using serial time incubations, the assay may be able to able to detect how a treatment spatially affects granulocyte function. All samples were measured using an image-based flow cytometer equipped with a quantitative imaging (QI) option, autosampler, and multiple lasers (488, 642, and 785 nm).

Oral Supplementation with Baker's Yeast Beta Glucan Is Associated with Altered Monocytes, T Cells and Cytokines following a Bout of Strenuous Exercise

Exercise and physical labor in extreme environmental conditions causes transient decreases in immune cell and cytokine concentrations, likely increasing the susceptibility to opportunistic infection. Bakers yeast beta glucan (BYBG) has been previously demonstrated to be an effective countermeasure in athletes, but its effectiveness in individuals of average fitness under similar physical stress is unknown. The purpose of this study was to determine if 10 days of oral supplementation with BYBG could modify previously observed suppression of monocytes, T cells, circulating and whole blood LPS-stimulated cytokines due to strenuous exercise. Venous blood samples were collected from 109 healthy volunteers prior to, immediately after, 2 and 4 h post-exercise. Monocyte and T cell concentration, cell-surface receptor expression and serum and LPS-stimulated cytokines were assessed. BYBG significantly (P < 0.05) altered total and classic monocyte concentration and expression of CD38, CD80, CD86, TLR2, and TLR4 on monocyte subsets. BYBG also significantly increased CD4+ and CD8+ T cell concentration and the exercise response of CCR7+/CD45RA- central memory (TCM) cells. Likewise, BYBG significantly (P < 0.05) altered serum IFN-γ and IL-2, and LPS-stimulated IFN-γ, IL-2, IL-4, and IL-7. Taken together these data support the hypothesis that oral BYBG supplementation modulates the expected exercise response for individuals of average fitness. This may result in a decrease in susceptibility to opportunistic infections after strenuous exercise.

Using Image-Based Flow Cytometry to Assess Monocyte Oxidized LDL Phagocytosis Capacity

The examination of monocyte phagocytosis of modified lipoproteins is important to the understanding of plaque deposition and the development of atherosclerosis. Current methods lack the high-throughput image-based analysis capabilities, which may yield novel information concerning monocyte activity in disease processes. Specifically, this method identifies monocyte phagocytosis of oxidized LDL along with a change in adhesion molecules and scavenger receptors. Our laboratory is currently implementing this method as a means to study how acute dietary modifications alter risk of developing atherosclerosis.