Putative neuroprotective compounds in in vitro models of dopaminergic neurodegeneration

Parkinson´s disease (PD) is a debilitating age-related neurological disorder that affects various motor skills and can lead to a loss of cognitive functions. The motor symptoms are the result of the progressive degeneration of dopaminergic neurons within the substantia nigra. The factors that influence the pathogenesis and the progression of the neurodegeneration remain mostly unclear. This study investigated the role of various programmed cell death (PCD) pathways, oxidative stress, and glial cells both in dopaminergic neurodegeneration and in the protective action of various drugs. To this end, we exposed dopaminergic neuroblastoma cells (SH-SY5Y cells) to 6-OHDA, which produces oxidative stress and activates various PCD modalities that result in neuronal degeneration. Additionally, to explore the role of glia, we prepared rat midbrain primary mixed-cell cultures containing both neurons and glial cell types such as microglia and astroglia and then exposed the cultures to either MPP plus or lipopolysaccharide. Our results revealed that 6-OHDA activated several PCD pathways including apoptosis, autophagic stress, lysosomal membrane permeabilization, and perhaps paraptosis in SH-SY5Y cells. Furthermore, we found that minocycline protected SH-SY5Y cells from 6-OHDA by inhibiting both apoptotic and non-apoptotic PCD modalities. We also observed an inconsistent neuroprotective effect of various dietary anti-oxidant compounds against 6-OHDA toxicity in vitro in SH-SY5Y cells. Specifically, quercetin and curcumin exerted neuroprotection only within a narrow concentration range and a limited time frame, whereas resveratrol and epigallocatechin 3-gallate provided no protection whatsoever. Lastly, we found that molecules such as amantadine may delay or even halt the neurodegeneration in primary cell cultures by inhibiting the release of neurotoxic factors from overactivated microglia and by enhancing the pro-survival actions of astroglia. Together these data suggest that the strategy of dampening oxidative species with anti-oxidants is less effective than preventing the production of toxic factors such as oxidative and pro-inflammatory molecules by pathologically activated microglia. This would subsequently prevent the activation of various PCD modalities that cause neuronal degeneration.

Cox-2, tenascin, CRP, and ingraft chimerism in a model of post-transplant obliterative bronchiolitis

Chronic rejection in the form of obliterative bronchiolitis (OB) is the major cause of death 5 years after lung transplantation. The exact mechanism of OB remains unclear. This study focused on the role of cyclo-oxygenase (COX) -2, tenascin, and C-reactive protein (CRP) expression, and the occurrence of ingraft chimerism (= cells from two genetically distinct individuals in a same individual) in post-transplant OB development. In our porcine model, OB developed invariably in allografts, while autografts stayed patent. The histological changes were similar to those seen in human OB. In order to delay or prevent obliteration, animals were medicated according to certain protocol. In the beginning of the bronchial allograft reaction, COX-2 induction occurred in airway epithelial cells prior to luminal obliteration. COX-2 expression in macrophages and fibroblasts paralleled the onset of inflammation and fibroblast proliferation. This study demonstrated for the first time, that COX-2 expression is associated with the early stage of post- transplant obliterative airway disease. Tenascin expression in the respiratory epithelium appeared to be predictive of histologic features observed in human OB, and influx of immune cells. Expression in the bronchial wall and in the early obliterative lesions coincided with the onset of onset of fibroblast and inflammatory cell proliferation in the early stage of OB and was predictive of further influx of inflammatory and immune cells. CRP expression in the bronchial wall coincided with the remodelling process. High grade of bronchial wall CRP staining intensity predicted inflammation, accelerated fibroproliferation, and luminal obliteration, which are all features of OB. In the early obliterative plaque, majority of cells expressed CRP, but in mature, collagen-rich plaque, expression declined. Local CRP expression might be a response to inflammation and it might promote the development of OB. Early appearance of chimeric (= recipient-derived) cells in the graft airway epithelium predicted epithelial cell injury and obliteration of the bronchial lumen, which both are features of OB. Chimeric cells appeared in the airway epithelium after repair following transplantation-induced ischemic injury. Ingraft chimerism might be a mechanism to repair alloimmune-mediated tissue injury and to protect allografts from rejection after transplantation. The results of this study indicate, that COX-2, tenascin, CRP, and ingraft chimerism have a role in OB development. These findings increase the understanding of the mechanisms of OB, which may be beneficial in further development of diagnostic options.

Candida-hiivojen asetaldehydin tuotto etanoli- ja glukoosi-inkubaatiossa in vitro

Yläruoansulatuskanavan syöpien tärkeimpiä riskitekijöitä ovat tupakointi, alkoholin suurkulutus ja huono suuhygienia. Näiden tekijöiden vaikutuksesta sylkeen erittyy korkeita pitoisuuksia asetaldehydiä, jonka Kansainvälinen syöväntutkimuslaitos (IARC) on luokitellut 1-ryhmän karsinogeeniksi. Suuri osa syljen asetaldehydistä on suun mikrobien tuottamaa. Tiedetään, että suun mikrobiomiin kuuluvat bakteerit ja Candida albicans -hiivat kykenevät tuottamaan mutageenisiä määriä asetaldehydiä. C. albicansin aiheuttaman kroonisen mukosiitin onkin todettu olevan karsinogeeninen. Muiden kandidalajien (non- albicans Candida, NAC) määrän on todettu kasvavan etenkin suusyöpähoitoja saavilla potilailla ja toisinaan osalle näistä potilaista kehittyy uusi primäärikarsinooma kandidamukosiitin läheisyyteen. NAC-lajien kykyä tuottaa asetaldehydiä ei kuitenkaan ole aiemmin tutkittu. Tutkimuksen tavoitteena oli selvittää pystyvätkö NAC-lajit tuottamaan karsinogeenisiä määriä asetaldehydiä etanoli- ja glukoosi-inkubaatiossa in vitro. Kaikkiaan kolmenkymmenen (n=30) kliinisen ja kantapankkiNAC-kannan kyky tuottaa asetaldehydiä etanoli- ja glukoosi-inkubaatiossa mitattiin kaasukromatografilla. Yksi C. albicans kantapankkikanta oli mukana kontrollina. Kaikki kandidahiivat tuottivat merkittäviä määriä asetaldehydiä etanoli-inkubaatiossa in vitro. C. tropicalis –kannat tuottivat eniten (252,3 µM) ja C. krusei –kannat vähiten (54,6 µM) asetaldehydiä etanolista. NAC-lajeista ainoastaan C. glabrata tuotti merkittäviä määriä asetaldehydiä glukoosia fermentoimalla. Suuontelon kolonisoituminen merkittävään asetaldehydituotantoon pystyvällä NAC-lajilla kuten C. glabratalla voi altistaa suun limakalvon paikallisesti korkeille määrille asetaldehydiä, mikä voi johtaa suusyövän kehittymiseen.