Methods:

Primary cortical astrocytes were isolated from neonatal

Sprague-Dawley pups. We exposed astrocytes to thrombin or specific

PAR-1 agonist, and measured ROCK pathway activation and MLC

phosphorylation. To determine the role for ROCK in MLC signaling

we examined the effect of a rho kinase inhibitor on thrombin-induced

MLC phosphorylation.

Results:

Thrombin induced phosphorylation of MLC in a time-

dependent manner. Rho kinase protein level was increased by treat-

ment with thrombin. Treatment with the ROCK inhibitor Y27632 at-

tenuated thrombin-mediated MLC phosphorylation without affecting

rho kinase protein level. Treatment with the thrombin agonist peptide

which acts via the PAR-1 receptor also caused an increase in phospho-

MLC levels.

Conclusion:

Thrombin activates the ROCK pathway to phosphor-

ylate MLC, likely via the PAR-1 receptor. These results suggest an-

other mechanism by which thrombin may affect BBB integrity

through its effects on astrocyte cytoskeletal properties.

Keywords: thrombin, rho kinase, myosin light chain

D7-02

TRAUMATICALLY INJURED ASTROCYTES RELEASE A

PROTEOMIC SIGNATURE MODULATED BY STAT3 DE-

PENDENT CELL SURVIVAL

Jaclynn Levine

1

, Kwon Eunice

1

, Pablo Paez

2

, Weihong Yan

3

, Gregg

Czerwieniec

3

, Joseph Loo

3

, Michael Sofroniew

4

, Ina-Beate Wanner

1

1

University of California Los Angeles, Semel Institute for Neu-

roscience, Los Angeles, USA

2

SUNY University at Buffalo, Hunter James Kelly Research Institute,

Buffalo, USA

3

University of California Los Angeles, Department of Biological

Chemistry, Los Angeles, USA

4

University of California Los Angeles, Department of Neurobiology,

Los Angeles, USA

Molecular markers associated with CNS injury are of diagnostic

interest. Mechanical trauma generates cellular deformation with

membrane damage and poration. We used an

in vitro

model of

stretch-injury and proteomic analysis to determine protein changes

in murine astrocytes and their surrounding fluids. Abrupt pressure-

pulse stretching resulted in rapid release of over 75 astrocytic pro-

teins with release profiles reflecting membrane permeability and cell

lysis. This acute astrocyte leak-associated ‘‘traumatome’’ was

overrepresented with metabolic and catabolic proteins compared to

their uninjured cellular proteome, bearing implications for post-

traumatic metabolic depression. Stretched astrocytes deficient in

signal transducer and activator of transcription 3 (STAT3-CKO)

released more protein complexes, nuclear proteins, cytoskeletal and

transport proteins, consistent with a larger population of lysed cells

compared to non-transgenic astrocytes. STAT3-CKO astrocytes also

had reduced basal expression of GFAP, lactate dehydrogenase B

(LDHB), aldolase C (ALDOC) and astrocytic phosphoprotein 15

(PEA15), and elevated levels of tropomyosin 4 (TPM4) and a-actinin

4 (ACTN4), as well as reduced stretch-injury tolerance and elevated

necrosis. Stretching led to cellular depletion of PEA15 and GFAP,

and caused GFAP filament disassembly in distinct subpopulations of

injured astrocytes that varied between genotypes. PEA15 and AL-

DOC signals were reduced in injured astrocytes at 6 hours after

mouse crush spinal cord injury (SCI) and were elevated in reactive

astrocytes 1–3 days post-injury. In contrast, a-crystallin (CRYAB)

was elevated in acutely injured astrocytes, and absent from uninjured

and reactive astrocytes, demonstrating marker heterogeneity. To-

gether these findings reveal a proteomic signature of traumatically-

injured astrocytes reflecting STAT3-dependent cellular survival,

with potential diagnostic value.

Keywords: traumatome, proteomic, GFAP, PEA 15, TBI, Bio-

marker

D8 Poster Session VIII - Group D: Neuroprotection

D8-01

NECK STRENGTH IS ASSOCIATED WITH HISTORY OF

CONCUSSION IN AMATEUR ADULT SOCCER PLAYERS

Eva Catenaccio

1

, Weiya Mu

1

, Namhee Kim

1

, Tamar Glattstein

1

,

Malka Zughaft

1

, Oren Jaspan

1

, Atira Kaplan

2

, Walter Stewart

3

,

Richard Lipton

4

, Michael Lipton

1,2

1

Albert Einstein College of Medicine, GMRRC, Bronx, USA

2

Montefiore Medical Center, Radiology, Bronx, USA

3

Sutter Healthcare, R&D, Sacramento, USA

4

Montefiore Medical Center, Neurology, Bronx, USA

Cervical musculature is essential for maintenance of posture and

stabilizing the head. Greater neck strength (NS) has been associated

with reduced risk of concussion in high school athletes. Soccer players

are at risk of concussion both from collisions and from heading the

ball. Our objective was to assess the association of measures of NS

and anthropometric measurements as predictors of risk of concussive

injury in soccer players. 57 players (41 men, 16 women, ages 18–51)

were drawn from an ongoing longitudinal study of sub-concussive and

concussive mild TBI in amateur soccer players. Number of prior

concussions was reported by each subject. Subjects underwent NS

measurement in isometric extension (EXT), forward flexion (FF), and

right (RLF) and left lateral flexion (LLF) using the microFET2 digital

dynamometer (Hoggan Scientific) mounted on a custom wall frame.

Height, weight, neck length, neck circumference, and head circum-

ference were measured and body mass index (BMI) was computed.

Players without a history of concussion (n

=

36) had significantly

greater NS in FF than players with a history of concussion (n

=

21)

(p

=

0.011). Number of prior concussions was negatively correlated

with NS in FF (p

=

0.003) and EXT (p

=

0.019). NS was correlated

with weight in all 4 directions (p

<

0.05) and with neck circumference

in FF, EXT, and LLF (p

<

0.01). However, neck circumference and

weight were not correlated with number of prior concussions. Results

were corrected for multiple comparisons using false discovery rate

correction (alpha

=

0.05). In soccer players increased NS is associated

with decreased risk of concussion. Anthropometric measurements are

correlated with NS, but not with history of concussion and may not

provide a reliable means for risk assessment. Further study is war-

ranted toward developing interventions to mitigate concussion risk.

Keywords: sports-related concussion, mild traumatic brain injury,

neck strength, anthropometrics

D8-02

NEUROPROTECTION WITH PEG-HYDROPHILIC CARBON

CLUSTERS IN MILD TRAUMATIC BRAIN INJURY COM-

PLICATED BY HYPOTENSION IN RODENTS

Roberto Garcia

1

, Lamin Mbye

1

, Thomas Kent

1

, James Tour

2

, Claudia

Robertson

1

1

Baylor College of Medicine, Neurosurgery, Houston, USA

2

Rice University, Chemistry, Houston, USA

A-113