De Lisio Lab
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2020
  1. Collao, N., Farup, J., & De Lisio, M. (2020). Role of Metabolic Stress and Exercise in Regulating Fibro/Adipogenic Progenitors. Frontiers in cell and developmental biology, 8, 9.
  2. Niemiro, G. M., Chiarlitti, N. A., Khan, N. A., & De Lisio, M. (2020). A Carbohydrate Beverage Reduces Monocytes Expressing TLR4 in Children with Overweight or Obesity. The Journal of nutrition, 150(3), 616–622.
  3. Barclay, R. D., Beals, J. W., Drnevich, J., Imai, B. S., Yau, P. M., Ulanov, A. V., Tillin, N. A., Villegas-Montes, M., Paluska, S. A., Watt, P. W., De Lisio, M., Burd, N. A., & Mackenzie, R. W. (2020). Ingestion of lean meat elevates muscle inositol hexakisphosphate kinase 1 protein content independent of a distinct post-prandial circulating proteome in young adults with obesity. Metabolism: clinical and experimental, 102, 153996.
2019
  1. van Vliet, S., Beals, J. W., Holwerda, A. M., Emmons, R. S., Goessens, J. P., Paluska, S. A., De Lisio, M., van Loon, L., & Burd, N. A. (2019). Time-dependent regulation of postprandial muscle protein synthesis rates after milk protein ingestion in young men. Journal of applied physiology (Bethesda, Md. : 1985), 127(6), 1792–1801.
  2. D'Souza, D., Roubos, S., Larkin, J., Lloyd, J., Emmons, R., Chen, H., & De Lisio, M. (2019). The Late Effects of Radiation Therapy on Skeletal Muscle Morphology and Progenitor Cell Content are Influenced by Diet-Induced Obesity and Exercise Training in Male Mice. Scientific reports, 9(1), 6691.
  3. Emmons, R., Ngu, M., Xu, G., Hernández-Saavedra, D., Chen, H., & De Lisio, M. (2019). Effects of Obesity and Exercise on Bone Marrow Progenitor Cells after Radiation. Medicine and science in sports and exercise, 51(6), 1126–1136.
  4. Emmons, R., Xu, G., Hernández-Saavedra, D., Kriska, A., Pan, Y. X., Chen, H., & De Lisio, M. (2019). Effects of obesity and exercise on colon cancer induction and hematopoiesis in mice. American journal of physiology. Endocrinology and metabolism, 316(2), E210–E220.
2018
  1. Allan, D. S., & De Lisio, M. (2018). Reversing pathological remodelling of the bone marrow microenvironment in acute myeloid leukemia. Stem cell investigation, 5, 29. 
  2. Niemiro, G. M., Skinner, S. K., Walk, A. M., Edwards, C. G., De Lisio, M., Holscher, H. D., Burd, N. A., & Khan, N. A. (2018). Oral Glucose Tolerance is Associated with Neuroelectric Indices of Attention Among Adults with Overweight and Obesity. Obesity (Silver Spring, Md.), 26(10), 1550–1557. 
  3. Edwards, T., Barfield, J. P., Niemiro, G. M., Beals, J. W., Broad, E. M., Motl, R. W., De Lisio, M., Burd, N. A., & Pilutti, L. A. (2018). Physiological responses during a 25-km time trial in elite wheelchair racing athletes. Spinal cord series and cases, 4, 77. 
  4. Niemiro, G. M., Allen, J. M., Mailing, L. J., Khan, N. A., Holscher, H. D., Woods, J. A., & De Lisio, M. (2018). Effects of endurance exercise training on inflammatory circulating progenitor cell content in lean and obese adults. The Journal of physiology, 596(14), 2811–2822. 
  5. Huntsman, H. D., Rendeiro, C., Merritt, J. R., Pincu, Y., Cobert, A., De Lisio, M., Kolyvas, E., Dvoretskiy, S., Dobrucki, I. T., Kemkemer, R., Jensen, T., Dobrucki, L. W., Rhodes, J. S., & Boppart, M. D. (2018). The impact of mechanically stimulated muscle-derived stromal cells on aged skeletal muscle. Experimental gerontology, 103, 35–46. 
  6. Niemiro, G. M., Edwards, T., Barfield, J. P., Beals, J. W., Broad, E. M., Motl, R. W., Burd, N. A., Pilutti, L. A., & De Lisio, M. (2018). Circulating Progenitor Cell Response to Exercise in Wheelchair Racing Athletes. Medicine and science in sports and exercise, 50(1), 88–97.

2017

  1. De Lisio M, Farup J. (2017). The role of satellite cells in activity-induced adaptations: Breathing new life into the debate. J. Physiol. 595(19):6225-6226.
  2. Beals JW, Mackenzie RWA, van Vliet S, Skinner SK, Pagni BA, Niemiro GM, Ulanov AV, Li Z, Dilger AC, Paluska SA, De Lisio M, Burd NA. (2017). Protein-rich food ingestion stimulates mitochondrial protein synthesis in sedentary young adults of different BMIs. J. Clin. Endocrinol. Metab. 102(9):3415-3424.
  3. Burd NA, De Lisio M. (2017). Skeletal muscle remodeling: Interconnections between stem cells and protein turnover. (2017). Exerc. Sport. Sci. Rev. 45(3):187-191.
  4. Bower AJ, Mahmassani Z, Zhao Y, Chaney EJ, Marjanovic M. Lee MK, Graf BW, De Lisio M, Kong H, Boppart MD, Boppart SA. (2017). In vivo assessment of engineered skin cell delivery with multimodal optical microscopy. Tissue Eng Part C Methods 23(7):434-442.
  5. Chorghade S, Seimetz J, Emmons R, Yang J, Bresson SM, De Lisio M, Parise G, Conrad NK, Kalsotra A. (2017). Poly(A) tail length regulates PABPC1 expression to tune translation in the heart. Elife.
  6. Niemiro GM, Parel J, Beals J, van Vliet S, Paluska SA, Moore DR, Burd NA, De Lisio M. (2017). Kinetics of circulating progenitor cell mobilization during submaximal exercise. J. Appl. Physiol. 122(3):675-682.
  7. Emmons R, Niemiro GM, De Lisio M. (2017). Hematopoiesis with obesity and exercise: role of the bone marrow niche. Exerc Immunol Rev. ​23:82-95.

2016

  1. Beals JW, Sukiennik RA, Nallabelli J, Emmons RS, van Vliet S, Young JR, Ulanov AV, Li Z, Paluska SA, De Lisio M, Burd NA. (2016).  Anabolic sensitivity of postprandial muscle protein synthesis to the ingestion of a protein-dense food is reduced in overweight and obese young adults.  Am J Clin Nutr. 104(4): 1014-1022.
  2. Pincu Y, Huntsman HD, Zou K, De Lisio M, Mahmassani ZS, Munroe MR, Garg K, Jensen T, Boppart MD.  (2016).  Diet-induced obesity regulates adipose-resident stromal cell quantity and extracellular matrix gene expression.  Stem Cell Res. 17(1):181-90.
  3. Niemiro GM, Raine LB, Khan NA, Emmons R, Little J, Kramer AF, Hillman CH, De Lisio M.  (2016).  Circulating progenitor cells are positively associated with cognitive function among overweight/obese children.  Brain Behav Immun. 57:47-52.
  4. Emmons R, Niemiro GM, De Lisio M.  (2016).  Exercise as an adjuvant therapy for hematopoietic stem cell mobilization.  Stem Cells Int. 2016:7131359.
  5. Safdar A, Khrapko K, Flynn JM, Saleem A, De Lisio M, Johnston AP, Kratysberg Y, Samjoo IA, Kitaoka Y, Ogborn DI, Little JP, Raha S, Parise G, Akhtar M, Hettinga BP, Rowe GC, Arany Z, Prolla TA, Tarnopolsky MA.  (2016).  Exercise-induced mitochondrial p53 repairs mtDNA mutations in mutator mice.  Skeletal Muscle 6:7.
  6. Emmons R, Niemiro GM, Owolabi O, De Lisio M.  (2016).  Acute exercise mobilizes hematopoietic stem and progenitor cells and alters the mesenchymal stromal cell secretome.  J Appl Physiol (1985). 120(6):624-32.

2015

  1. Boppart MD, De Lisio M, Witkowski S.  (2015).  Exercise and stem cells.  Prog Mol Biol Transl Sci. 135:423-56.
  2. Farup J, De Lisio M, Rahbek SK, Bjerre J, Vendelbo MH, Boppart MD, Vissing K.  (2015).  Pericyte response to contraction mode-specific resistance exercise training in human skeletal muscle.  J Appl Physiol (1985). 119(10):1053-63.
  3. De Lisio M, Farup J, Sukiennik RA, Clevenger N, Nallabelli J, Nelson B, Ryan K, Rahbek SK, de Paoli F, Vissing K, Boppart MD.  (2015).  The acute response of pericytes to muscle-damaging eccentric contraction and protein supplementation in human skeletal muscle.  J Appl Physiol (1985). 119(8):900-7.
  4. Zou K, Huntsman HD, Valero MC, Adams J, Skelton J, De Lisio M, Jensen T, Boppart MD.  (2015).  Mesenchymal stem cells augment the adaptive response to eccentric exercise.  Med Sci Sports Exerc. 47(2):315-25.

2014

  1. Zou K*, De Lisio M*, Huntsman HD, Pincu Y, Mahmassani Z, Miller M, Olatunbosun D, Jensen T, Boppart MD.  (2014).  Laminin-111 improves skeletal muscle stem cell quantity and function following eccentric exercise.  Stem Cells Transl Med. 3(9):1013-22.
  2. De Lisio M, Jensen T, Sukiennik RA, Huntsman HD, Boppart MD.  (2014).  Substrate and strain alter the muscle-derived mesenchymal stem cell secretome to promote myogenesis.  Stem Cell Res Ther. 5(3):74.
  3. Graf BW, Bower AJ, Chaney EJ, Marjanovic M, Adie SG, De Lisio M, Valero MC, Boppart MD, Boppart SA.  (2014).  In vivo multimodal microscopy for detecting bone marrow-derived cell contribution to skin regeneration.  J Biophotonics. 7(1-2):96-102.

2013

  1. Graf BW, Chaney EJ, Marjanovic M, Adie SG, De Lisio M, Valero MC, Boppart MD, Boppart SA.  (2013).  Long-term time-lapse multimodal intravital imaging of regeneration and bone marrow-derived cell dynamics in skin.  Technology. 1(1):8-19.
  2. Boppart MD, De Lisio M, Zou K, Huntsman HD.  (2013).  Defining a role for non-satellite stem cells in the regulation of muscle repair following exercise.  Front Physiol. 4:310.
  3. Graf BW, Chaney EJ, Marjanovic M, De Lisio M, Valero MC, Boppart MD, Boppart SA.  (2013).  In vivo imaging of immune cell dynamics in skin in response to zinc-oxide nanoparticle exposure.  Biomed Opt Express. 4(10):1817-28.
  4. De Lisio M, Parise G.  (2013).  Exercise and hematopoietic stem and progenitor cells: protection, quantity, and function.  (2013).  Exerc Sport Sci Rev. 41(2):116-22.
  5. Huntsman HD, Zachwieja N, Zou K, Ripchik P, Valero MC, De Lisio M, Boppart MD.  (2013).  Mesenchymal stem cells contribute to vascular growth in skeletal muscle in response to eccentric exercise.  Am J Physiol Heart Circ Physiol.  304(1):H72-81.
  6. De Lisio M, Baker JM, Parise G.  (2013).  Exercise promotes bone marrow cell survival and recipient reconstitution post-bone marrow transplantation, which is associated with increased survival.  Exp Hematol. 41(2):143-54.
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