Your search keyword '"Koumanov, F"' showing total 2 results

1. Ensilicated tetanus antigen retains immunogenicity: in vivo study and time-resolved SAXS characterization.

Author

Doekhie, A., Dattani, R., Chen, Y-C., Yang, Y., Smith, A., Silve, A. P., Koumanov, F., Wells, S. A., Edler, K. J., Marchbank, K. J., Elsen, J. M. H. van den, and Sartbaeva, A.

Subjects

SOL-gel processes, BIOPHARMACEUTICS, SILICA nanoparticles, FREEZE-drying, MAGNETIC fields

Abstract

Our recently developed ensilication approach can physically stabilize proteins in silica without use of a pre-formed particle matrix. Stabilisation is done by tailor fitting individual proteins with a silica coat using a modified sol-gel process. Biopharmaceuticals, e.g. liquid-formulated vaccines with adjuvants, frequently have poor thermal stability; heating and/or freezing impairs their potency. As a result, there is an increase in the prevalence of vaccine-preventable diseases in low-income countries even when there are means to combat them. One of the root causes lies in the problematic vaccine 'cold chain' distribution. We believe that ensilication can improve vaccine availability by enabling transportation without refrigeration. Here, we show that ensilication stabilizes tetanus toxin C fragment (TTCF), a component of the tetanus toxoid present in the diphtheria, tetanus and pertussis (DTP) vaccine. Experimental in vivo immunization data show that the ensilicated material can be stored, transported at ambient temperatures, and even heat-treated without compromising the immunogenic properties of TTCF. To further our understanding of the ensilication process and its protective effect on proteins, we have also studied the formation of TTCF-silica nanoparticles via time-resolved Small Angle X-ray Scattering (SAXS). Our results reveal ensilication to be a staged diffusion-limited cluster aggregation (DLCA) type reaction. An early stage (tens of seconds) in which individual proteins are coated with silica is followed by a subsequent stage (several minutes) in which the protein-containing silica nanoparticles aggregate into larger clusters. Our results suggest that we could utilize this technology for vaccines, therapeutics or other biopharmaceuticals that are not compatible with lyophilization. [ABSTRACT FROM AUTHOR]

Published

2020

2. Physiological and molecular responses to an acute bout of reduced-exertion high-intensity interval training (REHIT).

Author

Metcalfe, R., Koumanov, F., Ruffino, J., Stokes, K., Holman, G., Thompson, D., Vollaard, N., Metcalfe, R S, Ruffino, J S, Stokes, K A, Holman, G D, and Vollaard, N B J

Subjects

*INTERVAL training, *INSULIN resistance, *BODY mass index, *EXERCISE physiology, *APPETITE, *FATIGUE (Physiology), *SKELETAL muscle physiology, *PHYSIOLOGICAL adaptation, *CELLULAR signal transduction, *EXERCISE, *GLYCOGEN, *LACTIC acid, *PHOSPHORYLATION, *PHYSICAL fitness, *RESEARCH funding, *TRANSFERASES, *OXYGEN consumption

Abstract

Purpose: We have previously shown that 6 weeks of reduced-exertion high-intensity interval training (REHIT) improves VO2max in sedentary men and women and insulin sensitivity in men. Here, we present two studies examining the acute physiological and molecular responses to REHIT.Methods: In Study 1, five men and six women (age: 26 ± 7 year, BMI: 23 ± 3 kg m(-2), VO2max: 51 ± 11 ml kg(-1) min(-1)) performed a single 10-min REHIT cycling session (60 W and two 20-s 'all-out' sprints), with vastus lateralis biopsies taken before and 0, 30, and 180 min post-exercise for analysis of glycogen content, phosphorylation of AMPK, p38 MAPK and ACC, and gene expression of PGC1α and GLUT4. In Study 2, eight men (21 ± 2 year; 25 ± 4 kg·m(-2); 39 ± 10 ml kg(-1) min(-1)) performed three trials (REHIT, 30-min cycling at 50 % of VO2max, and a resting control condition) in a randomised cross-over design. Expired air, venous blood samples, and subjective measures of appetite and fatigue were collected before and 0, 15, 30, and 90 min post-exercise.Results: Acutely, REHIT was associated with a decrease in muscle glycogen, increased ACC phosphorylation, and activation of PGC1α. When compared to aerobic exercise, changes in VO2, RER, plasma volume, and plasma lactate and ghrelin were significantly more pronounced with REHIT, whereas plasma glucose, NEFAs, PYY, and measures of appetite were unaffected.Conclusions: Collectively, these data demonstrate that REHIT is associated with a pronounced disturbance of physiological homeostasis and associated activation of signalling pathways, which together may help explain previously observed adaptations once considered exclusive to aerobic exercise. [ABSTRACT FROM AUTHOR]

Published

2015