D9 Poster Session VIII - Group D: Vascular

D9-01

DEVELOPMENT OF ROCK2-SELECTIVE BA-1049 FOR

TREATMENT OF CEREBRAL CAVERNOUS MALFORMA-

TIONS

Lisa Bond

, Kenneth Rosen, Lisa McKerracher

BioAxone BioSciences, Inc., Research, Cambridge, USA

Cerebral cavernous malformation (CCM) disease is a cerebrovascular

disorder in which endothelial cells form single or multiple cystic brain

lesions that can leak and cause hemorrhagic stroke and other neurological

defects. There is no pharmacological treatment to prevent/reverse CCM

lesion formation; severe clinical sequelae are treated by surgical removal

of the leaky capillary clusters, potentially causing additional neuro-

trauma. Inherited cases of CCM are caused by loss of function in one of

the 3 CCM genes (

CCM1, CCM2 and CCM3

) and sporadic cases result

from mutations in the same genes. Studies of the inherited mutations

underlying CCM formation revealed that disruption in endothelial barrier

integrity is caused directly by the hyper-activation of Rho, a small

GTPase signaling protein that regulates stress fiber formation and cell-

cell junctions. We previously demonstrated abnormal activation of Rho

after SCI and TBI, and developed BA-1049 as a compound that reverses

abnormal activation of downstream Rho kinase (ROCK) in neurotrauma.

BA-1049 is selective for the Rock2 isoform highly expressed in cerebral

vasculature. To investigate potential efficacy of BA-1049 in CCM, we

studied the effect of BA-1049 on endothelial cells. BA-1049 reduces

proliferation in human vascular endothelial cells (HUVEC)

in vitro

,

suggesting a potential to reverse the angiogenic abnormalities underlying

CCM formation. Treatment with BA-1049 also disrupts stress fiber for-

mation and increases occludin/cadherin expression in HUVEC cells,

suggesting a potential to reverse the junctional instability and endothelial

permeability underlying lesion hemorrhage. To determine if BA-1049

has appropriate properties to be used as an orally active drug, we in-

vestigated Caco-2 cell permeability and albumin binding. BA-1049 has

good permeability characteristics (Papp Ratio: 1.31) and shows low al-

bumin binding (7.26%). We have performed a computer-based screen of

the chemical structure, and no hits indicating potentially serious toxicities

were detected. We have focused on CCM for development of BA-1049

because of the clear clinical development path. Success in development

of BA-1049 for CCM may lead to further development to reverse Rho

activation in other types of neurotrauma, such as TBI.

Keywords: Cerebral Cavernous Malformations, Rho Kinase, Vas-

cular Disorders, CCM, ROCK

D9-02

HUMAN UMBILICAL CORD PERIVASCULAR CELL

(HUCPVC) THERAPY FOR TRAUMATIC BRAIN INJURY:

TARGETING THE NEUROVASCULAR UNIT

Tanya Barretto

2

,

Eugene Park

1

, Leila Maghen

2

, Elaine Liu

1

, Shlomit

Kenigsberg

2

, Andree Gauthier-Fisher

2

, Katya Park

2

, Andrew Baker

1,3

,

Clifford Librach

2,4

1

St. Michael Hospital, Trauma Research, Toronto, Canada

2

CReATe Fertility, Research, Toronto, Canada

3

University of Toronto, Surgery & Anesthesia, Toronto, Canada

4

University of Toronto, Obstetrics & Gynecology, Toronto, Canada

Mesenchymal stem cells are currently being used in clinical trials for

treatment of neurodegenerative diseases including stroke. We were

interested in evaluating the potential of human umbilical cord-derived

perivascular cells (HUCPVCs), a less differentiated type of MSC, on

their therapeutic potential in TBI. HUCPVCs have several advantages

over MSCs including ease of procurement and greater rates of ex-

pansion.

Objective:

We hypothesized that HUCPVCs contribute to recovery

of white matter after modeled trauma.

Methods:

A gene array analysis was performed on HUCPVCs to

examine expression of relevant modulators of inflammation, angio-

genesis and neurogenesis.

In vitro

and

in vivo

injury models were used

to evaluate HUCPVC treatment on outcome after injury.

In vitro

-

E17-derived cortical neurons were cultured for 7 days, then subject to

sublethal oxygen-glucose deprivation for 90 minutes resulting in ax-

onal degeneration. HUCPVCs were co-cultured for 3 days and out-

come assessed on degenerating axons.

In vivo

- Adult male Sprague-

Dawley rats underwent a lateral fluid percussion injury and were

treated 24 hours after injury with 2.5x10

6

fluorescently labeled HUC-

PVCs via tail vein injection.

Results:

Gene expression analysis indicates expression of key

neurotrophic (BDNF, NGF, NT3, GDNF), angiogenic (VEGF-A,

FGF5, BMP1) and inflammation-modulating factors (CSF, IL mem-

bers, CXCL members). Preliminary

in vitro

data indicates that

HUCPVCs rescue OGD-induced axonal degeneration.

In vivo

results

indicate no adverse effects related to HUCPVC treatment. Labeled

HUCPVCs were found in the injured cerebral cortex at 24 hrs post-

injection.

Conclusions:

Our data suggests that HUCPVCs have therapeutic

potential to address white matter injury after TBI. Given the immune

modulating expression of cytokines, proangiogenic and neurotrophic

factor expression there is evidence to suggest that HUCPVCs targets

numerous injury mechanisms.

Keywords: stem cell therapy, human umbilical cord perivascular

cell, mesenchymal stem cell

D9-03

INSTITUTIONAL REVIEW OF SCREENING FOR BLUNT

CEREBROVASCULAR INJURIES

Matt Decker

, Greg Murad

University of Florida, Neurosurgery, Gainesville, USA

Introduction:

The incidence of blunt cerebrovascular injuries (BCVI)

in the trauma population is low; however, the mortality and morbidity

associated with symptomatic BCVI approaches 30% and 60% re-

spectively. Appropriate screening methods need to be implemented to

ensure treatment is initiated prior to symptom development. Screening

algorithms rely mostly on level III evidence. This study evaluates a

single institution’s data at a Level I trauma center to develop insti-

tutional neurosurgical guidelines screening for BCVI.

Methods:

IRB for a retrospective review was obtained. The Uni-

versity of Florida Trauma Database was queried. All patients pre-

senting to UF Health since its designation of a Level I Trauma Center

( July 1, 2005) with ICD-9 diagnosis codes specific to neurosurgical

trauma were individually chart reviewed. Patients included were those

who underwent neurovascular imaging and those with a diagnosis of a

blunt cerebrovascular injury. Exclusion criteria included patients with

a documented history of prior cerebrovascular injury, those with

penetrating cerebrovascular injuries, and patients undergoing vascular

imaging to assess for intracranial vascular malformation (aneurysm,

AVM). Data collected included patient demographics; traumatic in-

juries; signs, symptoms, treatment, and complications of BCVI; and

follow up. A multivariate analysis was performed to determine odds

ratios based on trauma findings.

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