Lola Weiss 1 , Reuven Or , Richard C Jones , Ravi Amunugama , Lellean JeBailey , Sivakumar Ramu , Steven A Bernstein , Zhanna Yekhtin , Osnat Almogi-Hazan , Reut Shainer , Israel Reibstein , Alexander O Vortmeyer , Michael J Paidas , Michael Zeira , Shimon Slavin , Eytan R Barnea Show Affiliations »
Abstract
INTRODUCTION: Embryo-derived PIF modulates systemic maternal immunity without suppression. Synthetic analog (sPIF) prevents juvenile diabetes, preserves islet function, reducing oxidative stress/protein misfolding. We investigate sPIF effectiveness in controlling neuroinflammation/MS. METHODS: Examine sPIF-induced protection against harsh, clinical-relevant murine EAE-PLP acute and chronic models. Evaluate clinical indices: circulating cytokines, spinal cord histology, genome, canonical global proteome, cultured PLP-activated splenocytes cytokines, and immunophenotype. RESULTS: Short-term, low-dose sPIF prevented paralysis development and lowered mortality (P<0.05). Episodic sPIF reversed chronic paralysis (P<0.0001) completely in >50%, by day 82. Prevention model: 12days post-therapy, sPIF reduced circulating IL12 ten-fold and inflammatory cells access to spinal cord. Regression model: sPIF blocked PLP-induced IL17 and IL6 secretions. Long-term chronic model: sPIF reduced spinal cord pro-inflammatory cytokines/chemokines, (ALCAM, CF1, CCL8), apoptosis-promoters, inflammatory cells access (JAM3, OPA1), solute channels (ATPases), aberrant coagulation factors (Serpins), and pro-antigenic MOG. Canonical proteomic analysis demonstrated reduced oxidative phosphorylation, vesicle traffic, cytoskeleton remodeling involved in neuro-cytoskeleton breakdown (tubulins), associated with axon re-assembly by (MTAPs)/improved synaptic transmission. CONCLUSION: sPIF--through coordinated central and systemic multi-targeted action--reverses neuroinflammation/MS and imparts significant neuroprotective effects up to total paralysis resolution. Clinical testing is warranted and planned.
INTRODUCTION: Embryo-derived PIF modulates systemic maternal immunity without suppression. Synthetic analog (sPIF ) prevents juvenile diabetes , preserves islet function, reducing oxidative stress/protein misfolding. We investigate sPIF effectiveness in controlling neuroinflammation/MS. METHODS: Examine sPIF -induced protection against harsh, clinical-relevant murine EAE-PLP acute and chronic models. Evaluate clinical indices: circulating cytokines, spinal cord histology, genome, canonical global proteome, cultured PLP -activated splenocytes cytokines, and immunophenotype. RESULTS: Short-term, low-dose sPIF prevented paralysis development and lowered mortality (P<0.05). Episodic sPIF reversed chronic paralysis (P<0.0001) completely in >50%, by day 82. Prevention model: 12days post-therapy, sPIF reduced circulating IL12 ten-fold and inflammatory cells access to spinal cord. Regression model: sPIF blocked PLP -induced IL17 and IL6 secretions. Long-term chronic model: sPIF reduced spinal cord pro-inflammatory cytokines/chemokines, (ALCAM , CF1, CCL8 ), apoptosis-promoters, inflammatory cells access (JAM3 , OPA1 ), solute channels (ATPases), aberrant coagulation factors (Serpins), and pro-antigenic MOG. Canonical proteomic analysis demonstrated reduced oxidative phosphorylation, vesicle traffic, cytoskeleton remodeling involved in neuro-cytoskeleton breakdown (tubulins), associated with axon re-assembly by (MTAPs)/improved synaptic transmission. CONCLUSION: sPIF --through coordinated central and systemic multi-targeted action--reverses neuroinflammation/MS and imparts significant neuroprotective effects up to total paralysis resolution. Clinical testing is warranted and planned.
Copyright © 2011 Elsevier B.V. All rights reserved.
Entities: Disease
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Year: 2011
PMID: 21996270 DOI: 10.1016/j.jns.2011.07.050
Source DB: PubMed Journal: J Neurol Sci ISSN: 0022-510X Impact factor: 3.181