Adrienne Liberman

Neural Heme Oxygenase-1 Expression in Idiopathic Parkinson's Disease☆

Heme oxygenase-1 is a cellular stress protein expressed in brain and other tissues in response to oxidative challenge and other noxious stimuli. In the present study, immunohistochemistry was used to assess HO-1 expression in various postmortem human brain specimens derived from PD and control subjects. In the substantia nigra of both PD and control specimens, moderate HO-1 immunoreactivity was consistently observed in neuromelanin-containing (dopaminergic) neurons. Lewy bodies in PD nigra neurons exhibited intense HO-1 immunostaining in their peripheries. In both PD and control specimens, neuronal HO-1 staining was faint or nondetectable in the other brain regions surveyed. The fraction of GFAP-positive astroglia expressing HO-1 in PD substantia nigra (77.1 +/- 12.3) was significantly greater than that observed in the substantia nigra of control subjects (18.7 +/- 7.1; P = 0.0015). In the other regions examined, percentages of GFAP-positive astroglia coexpressing HO-1 were relatively low and did not differ significantly (P > 0.05) between control and PD specimens. Upregulation of HO-1 in the substantia nigra of PD subjects supports the view that the affected tissue is experiencing chronic oxidative stress. In addition, excessive cellular levels of heme-derived free iron and carbon monoxide resulting from HO-1 overactivity may contribute to the pathogenesis of PD.

Glial heme oxygenase-1 expression in Alzheimer disease and mild cognitive impairment.

We determined whether oxidative stress is an early event in the pathogenesis of sporadic Alzheimer disease (AD), and correlated oxidative stress with neuropsychological functions and neurofibrillary pathology in AD and mild cognitive impairment (MCI). Oxidative stress was measured as the percentage of astrocytes expressing heme oxygenase-1 (HO-1) in post mortem temporal cortex and hippocampus after dual HO-1/glial fibrillary acidic protein (GFAP) immunohistochemistry. Glial HO-1 expression in the MCI temporal cortex and hippocampus was significantly greater than in the non-demented group and did not differ from AD values. Astroglial HO-1 expression in the temporal cortex was associated with decreased scores for global cognition, episodic memory, semantic memory and working memory. Hippocampal astroglial HO-1 expression was associated with lower scores for global cognition, semantic memory and perceptual speed. Glial HO-1 immunoreactivity in the temporal cortex, but not hippocampus, correlated with the burden of neurofibrillary pathology. Cortical and hippocampal oxidative stress is a very early event in the pathogenesis of sporadic AD and correlates with the development of specific cognitive deficits in this condition.

Proinflammatory cytokines promote glial heme oxygenase-1 expression and mitochondrial iron deposition: implications for multiple sclerosis.

Proinflammatory cytokines, pathological iron deposition, and oxidative stress have been implicated in the pathogenesis of multiple sclerosis (MS) and experimental autoimmune encephalomyelitis (EAE). HO‐1 mRNA levels and mitochondrial uptake of [55Fe]Cl3‐derived iron were measured in rat astroglial cultures exposed to interleukin‐1β (IL‐1β) or tumor necrosis factor‐α (TNF‐α) alone or in combination with the heme oxygenase‐1 (HO‐1) inhibitors, tin mesoporphyrin (SnMP) or dexamthasone (DEX), or interferon β1b (INF‐β). HO‐1 expression in astrocytes was evaluated by immunohistochemical staining of spinal cord tissue derived from MS and control subjects. IL‐1β or TNF‐α promoted sequestration of non‐transferrin‐derived 55Fe by astroglial mitochondria. HO‐1 inhibitors, mitochondrial permeability transition pore (MTP) blockers and antioxidants significantly attenuated cytokine‐related mitochondrial iron sequestration in these cells. IFN‐β decreased HO‐1 expression and mitochondrial iron sequestration in IL‐1β‐ and TNF‐α‐challenged astroglia. The percentage of astrocytes coexpressing HO‐1 in affected spinal cord from MS patients (57.3% ± 12.8%) was significantly greater (p < 0.05) than in normal spinal cord derived from controls subjects (15.4% ± 8.4%). HO‐1 is over‐expressed in MS spinal cord astroglia and may promote mitochondrial iron deposition in MS plaques. In MS, IFN‐β may attenuate glial HO‐1 gene induction and aberrant mitochondrial iron deposition accruing from exposure to proinflammatory cytokines.

HO‐1‐mediated macroautophagy: a mechanism for unregulated iron deposition in aging and degenerating neural tissues

J. Neurochem. (2009) 109, 776–791.

Brain Erythropoietin Receptor Expression in Alzheimer Disease and Mild Cognitive Impairment

Cellular mechanisms conferring neuroprotection in the brains of patients with Alzheimer disease (AD) remain incompletely understood. Erythropoietin (Epo) and the erythropoietin receptor (EpoR) are expressed in neural tissues and protect against oxidative and other stressors in various models of brain injury and disease. Our objective in this study was to determine whether EpoR is upregulated in the brains of persons with sporadic AD and mild cognitive impairment (MCI). Postmortem hippocampus and temporal cortex from subjects with AD, MCI, and no cognitive impairment (NCI) were procured from the Religious Orders Study. Total immunoreactive EpoR protein was determined by Western blotting. Astrocytes expressing immunoreactive EpoR were quantified in 4 temporal and 6 hippocampal regions, and correlated with clinical, neuropsychologic, and neuropathologic indices. Total immunoreactive EpoR protein was markedly increased in AD and MCI temporal cortex versus NCI tissues. Composite measures of glial EpoR expression in temporal cortex layers I to IV were significantly greater in the MCI group compared with the NCI and AD groups. Hippocampal EpoR scores were increased in persons with MCI and AD relative to those with NCI. There was substantial subregional heterogeneity in disease-related EpoR expression patterns in AD and MCI temporal cortex and hippocampus. There was no association of EpoR-positive astrocytes with summary measures of global cognition or AD pathology. We conclude that upregulation of EpoR in temporal cortical and hippocampal astrocytes is an early, potentially neuroprotective, event in the pathogenesis of sporadic AD.

Characterization of α1-antitrypsin as a heme oxygenase-1 suppressor in Alzheimer plasma

Heme oxygenase-1 (HO-1) mRNA and protein levels are diminished in Alzheimer disease (AD) blood, cerebrospinal fluid (CSF) and choroid plexus. Herein, the presence of a heme oxygenase-1 suppressor (HOS) factor was ascertained by astroglial bioassay, biochemical techniques and immunofluorescence confocal microscopy. We report significantly augmented plasma HOS activity in AD patients relative to healthy elderly and neurological controls. The HOS factor was determined to be a 50-100 kDa heat-labile, heparin-binding glycoprotein that is unrelated to antioxidant ingestion, plasma total antioxidant capacity, circulating cortisol levels or apolipoprotein E epsilon4 carrier status. HOS bioactivity was recapitulated by exogenous alpha(1)-antitrypsin. alpha(1)-antitrypsin levels were significantly increased in AD plasma and correlated with HOS activity and MMSE scores. alpha(1)-antitrypsin immunodepletion attenuated HOS activity of AD plasma. In AD brain, alpha(1)-antitrypsin immunoreactivity was augmented and co-distributed with HO-1. HOS activity of alpha(1)-antitrypsin may curtail HO-1-dependent derangement of cerebral iron homeostasis and account for diminished HO-1 expression in AD peripheral tissues.

Schizophrenia-Like Features in Transgenic Mice Overexpressing Human HO-1 in the Astrocytic Compartment

Delineation of key molecules that act epigenetically to transduce diverse stressors into established patterns of disease would facilitate the advent of preventive and disease-modifying therapeutics for a host of neurological disorders. Herein, we demonstrate that selective overexpression of the stress protein heme oxygenase-1 (HO-1) in astrocytes of novel GFAP.HMOX1 transgenic mice results in subcortical oxidative stress and mitochondrial damage/autophagy; diminished neuronal reelin content (males); induction of Nurr1 and Pitx3 with attendant suppression of their targeting miRNAs, 145 and 133b; increased tyrosine hydroxylase and α-synuclein expression with downregulation of the targeting miR-7b of the latter; augmented dopamine and serotonin levels in basal ganglia; reduced D1 receptor binding in nucleus accumbens; axodendritic pathology and altered hippocampal cytoarchitectonics; impaired neurovascular coupling; attenuated prepulse inhibition (males); and hyperkinetic behavior. The GFAP.HMOX1 neurophenotype bears resemblances to human schizophrenia and other neurodevelopmental conditions and implicates glial HO-1 as a prime transducer of inimical (endogenous and environmental) influences on the development of monoaminergic circuitry. Containment of the glial HO-1 response to noxious stimuli at strategic points of the life cycle may afford novel opportunities for the effective management of human neurodevelopmental and neurodegenerative conditions.

Astroglial heme oxygenase-1 and the origin of corpora amylacea in aging and degenerating neural tissues.

BACKGROUND Corpora amylacea (CA) are glycoproteinaceous (predominantly glial and extracellular) inclusions that accumulate in normal aging brain and, to a greater extent, in Alzheimer disease (AD). Previous pharmacological evidence suggested that up-regulation of endogenous heme oxygenase-1 (HO-1) in astrocytes promotes transformation of normal mitochondria to CA-like inclusions. Here, we determined whether 1) HMOX1 transfection fosters the accumulation of CA-like inclusions in cultured rat astroglia; 2) the HMOX1 transgene promotes CA formation in the brains of aging GFAP.HMOX1 mice; and 3) brain mitochondrial damage and CA biogenesis are augmented in persons with mild cognitive impairment (MCI), a harbinger of AD. METHODS CA were ascertained in (i) neonatal rat astroglia transfected with flag-tagged human HO-1 cDNA, (ii) brain sections derived from 19month-old GFAP.HMOX1 and wild-type (WT) mice, and (iii) post-mortem hippocampal sections from individuals with mild (MCI) and no cognitive impairment (NCI) after staining with PAS or antisera against HO-1, ubiquitin (Ub), manganese superoxide dismutase (MnSOD), and α-synuclein or tyrosine hydroxylase (TH). RESULTS HMOX1 transfection induced cytoplasmic vacuolation and the accumulation of PAS+ inclusions in cultured astroglia. Numerous CA-like inclusions stained with PAS and immunoreactive for HO-1, Ub and MnSOD were observed in the brains of GFAP.HMOX1 mice, but were rarely encountered in age-matched, WT controls. Numbers of HO-1-positive CA were significantly increased in certain hippocampal strata of MCI subjects relative to NCI preparations. MnSOD and Ub proteins co-localized to CA in both the control and MCI specimens. CONCLUSIONS HO-1 promotes mitochondrial damage and CA biogenesis in astrocyte cultures and in the intact aging brain. CA formation is enhanced in the MCI hippocampus and thus occurs relatively early in the pathogenesis of AD. Glial HO-1 suppression may attenuate bioenergetic failure and slow disease progression in AD and other neurodegenerative conditions featuring accelerated accumulation of CA.

Cysteine-rich whey protein isolate (Immunocal®) ameliorates deficits in the GFAP.HMOX1 mouse model of schizophrenia

Abstract Schizophrenia is a neuropsychiatric disorder that features neural oxidative stress and glutathione (GSH) deficits. Oxidative stress is augmented in brain tissue of GFAP.HMOX1 transgenic mice which exhibit schizophrenia‐relevant characteristics. The whey protein isolate, Immunocal® serves as a GSH precursor upon oral administration. In this study, we treated GFAP.HMOX1 transgenic mice daily with either Immunocal (33 mg/ml drinking water) or equivalent concentrations of casein (control) between the ages of 5 and 6.5 months. Immunocal attenuated many of the behavioral, neurochemical and redox abnormalities observed in GFAP.HMOX1 mice. In addition to restoring GSH homeostasis in the CNS of the transgenic mice, the whey protein isolate augmented GSH reserves in the brains of wild‐type animals. These results demonstrate that consumption of whey protein isolate augments GSH stores and antioxidant defenses in the healthy and diseased mammalian brain. Whey protein isolate supplementation (Immunocal) may constitute a safe and effective modality for the management of schizophrenia, an unmet clinical imperative. Graphical abstract Figure. No caption available. HighlightsSchizophrenia features neural oxidative stress and glutathione (GSH) deficits.GFAP.HMOX1 mice show schizophrenia‐related traits including brain oxidative stress.The whey protein isolate, Immunocal® serves as a GSH precursor.Immunocal restores GSH homeostasis and attenuates many defects in GFAP.HMOX1 mice.Whey protein isolate consumption may benefit schizophrenia patients.

Evaluation of salivary heme oxygenase-1 as a potential biomarker of early Parkinson's disease: Salivary HO-1 and Parkinson's Disease

To date, there are no chemical analytes, including biochemical indices of oxidative stress, metabolites of α‐synuclein protein, and differential protein expression patterns on proteomic profiling, for use in clinics as a diagnostic biomarker of idiopathic PD.