Dynamic mechanical stretch of organotypic brain slice cultures induces differential genomic expression:​ relationship to mechanical parameters

Morrison, III, Barclay; Meaney, David F.; Margulies, Susan S.; McIntosh, Tracy K.

Affiliations

¹Department of Neurosurgery, University of Pennsylvania, Philadelphia, PA 19104

²Department of Bioengineering, University of Pennsylvania, Philadelphia, PA 19104

³Veterans Administration Medical Center, Philadelphia, PA 19104

Abstract and keywords

Although the material properties of biological tissues are reasonably well established, recent studies have suggested that the biological response of brain tissue and its constituent cells may also be viscoelastic and sensitive to both the magnitude and rate of a mechanical stimulus. Given the potential involvement of changes in gene expression in the pathogenic sequelae after head trauma, we analyzed the expression of 22 genes related to cell death and survival and found that a number of these genes were differentially regulated after mechanical stretch of an organotypic brain slice culture. Twenty-four hours after stretch, the expression of BDNF, NGF, and TrkA was significantly increased, whereas that of bcl-2, CREB, and GAD₆₅ was significantly decreased (MANOVA followed by ANOVA, p<0.05). Expression of CREB and GAD₆₅ was negatively correlated with strain, whereas expression of APP695 was negatively correlated with strain rate (all p<0.05). This study demonstrates that a subset of genes involved in cell death and survival are differentially regulated after dynamic stretch in vitro and that the expression of specific genes is correlated with mechanical parameters of that stretch.

Keywords: Genomic Expression; In Vitro Model; Traumatic Brain Injury; Stretch Injury; cDNA Array

Links

DOI: 10.1115/1.429650

PubMed: 10923289

WoS: 000167111000004

History

Received: 1999-12-08

Revised: 2000-02-06

Cited Works (7)

Year	Entry
1995	Ellis EF, McKinney JS, Willoughby KA, Liang S, Povlishock JT. A new model for rapid stretch-induced injury of cells in culture: characterization of the model using astrocytes. J Neurotrauma. June 1995;12(3):325-339.
1997	LaPlaca MC, Thibault LE. Anin vitro traumatic injury model to examine the response of neurons to a hydrodynamically-induced deformation. Ann Biomed Eng. July 1997;25(4):665-677.
1996	Cargill RS II, Thibault LE. Acute alterations in [Ca²⁺]_i in NG108-15 cells subjected to high strain rate deformation and chemical hypoxia: an in vitro model for neural. J Neurotrauma. July 1996;13(7):395-407.
1997	LaPlaca MC, Lee VM-Y, Thibault LE. An in vitro model of traumatic neuronal injury: loading rate-dependent changes in acute cytosolic calcium and lactate dehydrogenase release. J Neurotrauma. June 1997;14(5):355-368.
1997	Donnelly BR, Medige J. Shear properties of human brain tissue. J Biomech Eng. November 1997;119(4):423-232.
1998	Morrison B III, Saatman KE, Meaney DF, McIntosh TK. In vitro central nervous system models of mechanically induced trauma: a review. J Neurotrauma. November 1998;15(11):911-928.
1993	Galbraith JA, Thibault LE, Matteson DR. Mechanical and electrical responses of the squid giant axon to simple elongation. J Biomech Eng. February 1993;115(1):13-22.

Cited By (17)

Year	Entry
2012	Rashid B, Destrade M, Gilchrist MD. Experimental characterisation of neural tissue at collision speeds. In: Proceedings of the 2012 International IRCOBI Conference on the Biomechanics of Injury. September 12-14, 2012; Dublin, Ireland.405-416.
2003	Morrison B III, Cater HL, Wang CC-B, Thomas FC, Hung CT, Ateshian GA, Sundstrom LE. A tissue level tolerance criterion for living brain developed with an in vitro model of traumatic mechanical loading. Stapp Car Crash J. 2003;47:93-105. SAE 2003-22-0006.
2011	Meaney DF, Smith DH. Biomechanics of concussion. Clin Sports Med. January 2011;30(1):19-31.
2006	Cater HL, Sundstrom LE, Morrison B III. Temporal development of hippocampal cell death is dependent on tissue strain but not strain rate. J Biomech. 2006;39(16):2810-2818.
2012	Rashid B, Destrade M, Gilchrist M. Temperature effects on brain tissue in compression. J Mech Behav Biomed Mater. October 2012;14:113-118.
2006	Morrison B III, Cater HL, Benham CD, Sundstrom LE. An in vitro model of traumatic brain injury utilising two-dimensional stretch of organotypic hippocampal slice cultures. J Neurosci Meth. 2006;150(2):192-201.
2005	Bayly PV, Cohen TS, Leister EP, Ajo D, Leuthardt EC, Genin GM. Deformation of the human brain induced by mild acceleration. J Neurotrauma. August 2005;22(8):845-856.
2006	Geddes-Klein DM, Schiffman KB, Meaney DF. Mechanisms and consequences of neuronal stretch injury in vitro differ with the model of trauma. J Neurotrauma. February 2006;23(2):193-204.
2015	Lamprecht MR. A Potential Combination Therapy for Traumatic Brain Injury: 17β-Estradiol and Memantine [PhD thesis]. Columbia University; 2015.
2017	Vogel EW III. Pathobiological Mechanisms and Treatment of Electrophysiological Dysfunction Following Primary Blast-Induced Traumatic Brain Injury [PhD thesis]. Columbia University; 2017.
2008	Kilinc D. Mechanisms and Prevention of Axonal Damage in Response to Mechanical Trauma to Cultured Neurons [PhD thesis]. Drexel University; March 2008.
2011	Wester B. Development and Characterization of Mechanically Actuated Microtweezers for Use in a Single-Cell Neural Injury Model [PhD thesis]. Atlanta, GA: Georgia Institute of Technology; May 2011.
2013	Begonia MGT. Differentiating the Characteristic Response of the Brain After Exposure to Blunt and Blast Trauma [PhD thesis]. Mississippi State University; December 2013.
2014	Patton DA. The Biomechanical Determinants of Sports-Related Concussion: Finite Element Simulations of Unhelmeted Head Impacts to Evaluate Kinematic and Tissue-Level Predictors of Injury and Investigate the Design Implications for Soft-Shell Headgear [PhD thesis]. University of New South Wales; March 2014.
2012	Maltese MR. Traumatic Brain Injury Thresholds in the Pre-Adolescent Juvenile [PhD thesis]. Philadelphia, PA: University of Pennsylvania; 2012.
2014	Chen Y. Astrocyte Signaling in Traumatic Brain Injury [PhD thesis]. Philadelphia, PA: University of Pennsylvania; 2014.
2018	Hlavac NM. Attributes of Astrocyte Response to Mechano-Stimulation by High-Rate Overpressure [PhD thesis]. Virginia Polytechnic Institute and State University; October 25, 2018.