Over 200 million major elective surgeries are performed worldwide per year. With the rising costs of healthcare, preventative measures grow increasingly relevant to medical practice. Preconditioning (PC), a preemptive therapy in which mildly harmful stimuli are administered to induce endogenous protective mechanisms prior to major injury, has shown to be protective in many injury models. Given the elective nature of most neurosurgical procedures, the surgical brain injury (SBI) model is an ideal platform for PC. In SBI, collateral damage to healthy tissue caused by neurosurgical maneuvers-incision, retraction, and electrocoagulation-result in brain edema and hemorrhage. We propose PC with small doses of Crotalus snake venom, known for their inflammatory and hemorrhagic effects, to increase tolerance to SBI. Crotalus venoms contain two proteins of interest to SBI PC: phospholipase 2 (PLA2), an enzyme upstream to COX-2 in the inflammatory cascade, and snake venom metalloproteinase (sMMP), an enzyme with hemorrhagic effects. Crotalus venoms have been studied for diagnostic capabilities as well as therapeutic effects in coagulative disorders; and will soon be a new avenue of therapy for SBI by utilizing their toxic properties to preemptively upregulate the endogenous response to inflammatory and hemorrhagic injury. Our central hypothesis is that PC with Crotalus venom (CV-PC) will temper the severity of SBI by inducing innate tolerance to injury. This premise is supported by our preliminary data, which demonstrate that CV-PC reduces brain edema and hemorrhage, and improves neurological function 24 hrs after SBI in rats. We propose to systematically examine the effects of and investigate the molecular mechanisms for CV-PC. In our first aim, we will evaluate brain edema and hemorrhage for CV-PC, and determine optimal dosing and toxicity of CV-PC. We expect that CV-PC will reduce the brain edema, hemorrhage, and neurological deficits that result from SBI. In our second aim, we will examine the expression of inflammatory mediators after SBI, evaluate the effects of antagonizing PLA2 and COX-2 while administering CV-PC, and administer PLA2 as a preconditioning treatment in SBI. We expect that CV-PC produces neuroprotective effects for SBI through the PLA2/COX-2 inflammatory signaling pathway. In our third aim, we will measure plasma fibrinogen and fibrinogen degradation products, determine coagulative parameters, and evaluate the effects of antagonizing sMMP in CV-PC. We expect CV- PC reduces hemorrhage in SBI via its fibrinogenolytic activity. Our long-term goal is to develop an effective, preemptive therapy for SBI. Our proposal aims to establish a better mechanistic understanding of SBI that will facilitate the application of preconditioning therapies in the clinic. If successful, this proposal will improve patient outcome and decrease costs of perioperative care for neurosurgical patients and could prove beneficial in other major elective surgeries as well.

Public Health Relevance

Surgical brain injury (SBI) is the inevitable injury to the normal, yet susceptible brain that occurs during neurosurgical procedures. In this grant proposal, our objective is to reduce injury and improve neurological outcomes following SBI by eliciting the body's endogenous protective response with the administration of Crotalus snake venom prior to surgery.

Agency
National Institute of Health (NIH)
Institute
National Institute of Neurological Disorders and Stroke (NINDS)
Type
Research Project (R01)
Project #
5R01NS084921-05
Application #
9528676
Study Section
Acute Neural Injury and Epilepsy Study Section (ANIE)
Program Officer
Koenig, James I
Project Start
2014-08-01
Project End
2019-07-31
Budget Start
2018-08-01
Budget End
2019-07-31
Support Year
5
Fiscal Year
2018
Total Cost
Indirect Cost
Name
Loma Linda University
Department
Other Basic Sciences
Type
Schools of Medicine
DUNS #
009656273
City
Loma Linda
State
CA
Country
United States
Zip Code
92350
McBride, Devin W; Gren, Eric C K; Kelln, Wayne et al. (2018) Crotalus atrox disintegrin reduces hemorrhagic transformation by attenuating matrix metalloproteinase-9 activity after middle cerebral artery occlusion in hyperglycemic male rats. J Neurosci Res :
Wang, Yuechun; Sherchan, Prativa; Huang, Lei et al. (2018) Multiple mechanisms underlying neuroprotection by secretory phospholipase A2 preconditioning in a surgically induced brain injury rat model. Exp Neurol 300:30-40
Hu, Qin; Manaenko, Anatol; Bian, Hetao et al. (2017) Hyperbaric Oxygen Reduces Infarction Volume and Hemorrhagic Transformation Through ATP/NAD+/Sirt1 Pathway in Hyperglycemic Middle Cerebral Artery Occlusion Rats. Stroke 48:1655-1664
Kim, Cherine H; McBride, Devin W; Sherchan, Prativa et al. (2017) Crotalus helleri venom preconditioning reduces postoperative cerebral edema and improves neurological outcomes after surgical brain injury. Neurobiol Dis 107:66-72
Wang, Yuechun; Sherchan, Prativa; Huang, Lei et al. (2017) Naja sputatrix Venom Preconditioning Attenuates Neuroinflammation in a Rat Model of Surgical Brain Injury via PLA2/5-LOX/LTB4 Cascade Activation. Sci Rep 7:5466
Lapchak, Paul A; Zhang, John H (2017) The High Cost of Stroke and Stroke Cytoprotection Research. Transl Stroke Res 8:307-317
Yin, Cheng; Huang, Guang-Fu; Sun, Xiao-Chuan et al. (2017) DLK silencing attenuated neuron apoptosis through JIP3/MA2K7/JNK pathway in early brain injury after SAH in rats. Neurobiol Dis 103:133-143
Kim, Cherine H; McBride, Devin W; Raval, Ronak et al. (2017) Crotalus atrox venom preconditioning increases plasma fibrinogen and reduces perioperative hemorrhage in a rat model of surgical brain injury. Sci Rep 7:40821
Sherchan, Prativa; Huang, Lei; Akyol, Onat et al. (2017) Recombinant Slit2 Reduces Surgical Brain Injury Induced Blood Brain Barrier Disruption via Robo4 Dependent Rac1 Activation in a Rodent Model. Sci Rep 7:746
McBride, Devin W; Matei, Nathanael; Câmara, Justin R et al. (2016) Acute Hyperglycemia Does Not Affect Brain Swelling or Infarction Volume After Middle Cerebral Artery Occlusion in Rats. Acta Neurochir Suppl 121:251-5

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