Contusion injury with chronic in vivo polyphenol supplementation: leukocyte responses.

INTRODUCTION In vivo, daily proanthocyanidolic oligomer (PCO) supplementation before and after experimental skeletal muscle contusion injury has been shown to result in a blunted neutrophil response in tissue, quicker macrophage infiltration into muscle, and faster recovery due to a left shift in time course of inflammation. The current study investigated effects of PCO on circulatory neutrophils and macrophage subpopulations as well as in vitro neutrophil migration. METHODS Primary cultured neutrophils obtained from control animals were incubated in media with 20% conditioned plasma. To obtain conditioned media, male Wistar rats were supplemented with PCO (20 mg·kg(-1)d(-1)) or placebo (PLA) for 2 wk before a mass-drop contusion injury. Conditioned plasma was prepared from blood collected at different time points after injury (12 h, 1 d, 3 d, and 5 d). Macrophage subpopulation distribution, inflammatory cytokine, and myeloperoxidase levels were assessed for all time points. RESULTS On day 1 postinjury, circulating neutrophil numbers were significantly lower in PLA than PCO, suggesting that extravasation from the blood was reduced by PCO. Concurrently, neutrophil migration in vitro was blunted in the presence of conditioned plasma from PCO supplemented rats compared with PLA supplemented rats. Plasma M1 and M2c macrophage numbers differed over time and between groups. M1 macrophage numbers peaked on day 3 with PCO supplementation, followed by a rise in M2c macrophages on day 5, when M1 macrophages numbers were still high in PLA. CONCLUSIONS We conclude that PCO supplementation limits neutrophil migration capacity in vitro despite a chemotactic gradient. Furthermore, the earlier appearance of type M2 macrophages suggests a switch to an anti-inflammatory phenotype after injury even in circulation.

[1]  Guangwei Liu,et al.  Modulation of macrophage activation and programming in immunity , 2013, Journal of cellular physiology.

[2]  D. Ardigò,et al.  Quercetin-3-O-glucuronide affects the gene expression profile of M1 and M2a human macrophages exhibiting anti-inflammatory effects. , 2012, Food & function.

[3]  Roger D Kamm,et al.  A versatile assay for monitoring in vivo-like transendothelial migration of neutrophils. , 2012, Lab on a chip.

[4]  K. Myburgh,et al.  Accelerated skeletal muscle recovery after in vivo polyphenol administration. , 2012, The Journal of nutritional biochemistry.

[5]  Carine Smith,et al.  Postcontusion polyphenol treatment alters inflammation and muscle regeneration. , 2012, Medicine and science in sports and exercise.

[6]  A. Begovich,et al.  Alternative activation in systemic juvenile idiopathic arthritis monocytes. , 2012, Clinical immunology.

[7]  A. Henriques,et al.  Phenolic composition in different genotypes of Guabiju fruits (Myrcianthes pungens) and their potential as antioxidant and antichemotactic agents. , 2011, Journal of food science.

[8]  R. Ransohoff,et al.  Macrophages recruited via CCR2 produce insulin‐like growth factor‐1 to repair acute skeletal muscle injury , 2011, FASEB journal : official publication of the Federation of American Societies for Experimental Biology.

[9]  S. Yona,et al.  Monocyte and Neutrophil Isolation and Migration Assays , 2010, Current protocols in immunology.

[10]  F. Chrétien,et al.  Dual and Beneficial Roles of Macrophages During Skeletal Muscle Regeneration , 2009, Exercise and sport sciences reviews.

[11]  J. M. Peterson,et al.  Cytokines derived from cultured skeletal muscle cells after mechanical strain promote neutrophil chemotaxis in vitro. , 2009, Journal of applied physiology.

[12]  B. Heit,et al.  PI3K accelerates, but is not required for, neutrophil chemotaxis to fMLP , 2008, Journal of Cell Science.

[13]  Nihal Ahmad,et al.  Dose translation from animal to human studies revisited , 2007, FASEB journal : official publication of the Federation of American Societies for Experimental Biology.

[14]  K. Myburgh,et al.  The Inflammatory Response to Skeletal Muscle Injury , 2008, Sports medicine.

[15]  J. Tidball,et al.  Macrophages promote muscle membrane repair and muscle fibre growth and regeneration during modified muscle loading in mice in vivo , 2007, The Journal of physiology.

[16]  K. Zen,et al.  Response to genistein: assaying the activation status and chemotaxis efficacy of isolated neutrophils. , 2006, Journal of immunological methods.

[17]  C. Buckley,et al.  An in vitro model for analysing neutrophil migration into and away from the sub-endothelial space: Roles of flow and CD31. , 2006, Biorheology.

[18]  T. Koh,et al.  Neutrophils contribute to muscle injury and impair its resolution after lengthening contractions in mice. , 2005, The Journal of physiology.

[19]  E. Mylona,et al.  Mechanical loading and injury induce human myotubes to release neutrophil chemoattractants. , 2005, American journal of physiology. Cell physiology.

[20]  J. Tidball Inflammatory processes in muscle injury and repair. , 2005, American journal of physiology. Regulatory, integrative and comparative physiology.

[21]  L. Angenot,et al.  Inhibitory effects of proanthocyanidins from Ribes nigrum leaves on carrageenin acute inflammatory reactions induced in rats , 2004, BMC pharmacology.

[22]  P. Barnes,et al.  Anti-inflammatory effects of resveratrol in lung epithelial cells: molecular mechanisms. , 2004, American journal of physiology. Lung cellular and molecular physiology.

[23]  J. Cannon,et al.  Cytokines in exertion-induced skeletal muscle injury , 1998, Molecular and Cellular Biochemistry.

[24]  J. Calixto,et al.  Anti-inflammatory compounds of plant origin. Part I. Action on arachidonic acid pathway, nitric oxide and nuclear factor kappa B (NF-kappaB). , 2003, Planta medica.

[25]  J. Tidball,et al.  Interactions between neutrophils and macrophages promote macrophage killing of rat muscle cells in vitro , 2003, The Journal of physiology.

[26]  M. Falchi,et al.  Resveratrol inhibits TNFα-induced endothelial cell activation , 2001 .

[27]  R. Thompson,et al.  The effects of ph, osmolarity and urine contamination on equine spermatozoal motility. , 2001, Theriogenology.

[28]  M. Falchi,et al.  Resveratrol inhibits TNF alpha-induced endothelial cell activation. , 2001, Therapie.

[29]  R. de Caterina,et al.  Activity in vitro of resveratrol on granulocyte and monocyte adhesion to endothelium. , 1998, The American journal of clinical nutrition.

[30]  I. Utsunomiya,et al.  Generation of inflammatory cytokines in zymosan-induced pleurisy in rats: TNF induces IL-6 and cytokine-induced neutrophil chemoattractant (CINC) in vivo. , 1998, Cytokine.

[31]  P. Wilkinson,et al.  Assays of leukocyte locomotion and chemotaxis. , 1998, Journal of immunological methods.

[32]  M. Grounds,et al.  Chemotaxis in myogenesis , 1996 .

[33]  W. Neidhart,et al.  Pathophysiological role of endothelin revealed by the first orally active endothelin receptor antagonist , 1993, Nature.

[34]  J G Cannon,et al.  Acute phase response in exercise. III. Neutrophil and IL-1 beta accumulation in skeletal muscle. , 1993, The American journal of physiology.

[35]  R. van Furth,et al.  QUANTITATIVE STUDY ON THE PRODUCTION AND KINETICS OF MONONUCLEAR PHAGOCYTES DURING AN ACUTE INFLAMMATORY REACTION , 1973, The Journal of experimental medicine.

[36]  S. Boyden THE CHEMOTACTIC EFFECT OF MIXTURES OF ANTIBODY AND ANTIGEN ON POLYMORPHONUCLEAR LEUCOCYTES , 1962, The Journal of experimental medicine.