Correlation of Urinary Engrailed-2 Levels to Tumour Volume and Pathological Stage in Men Undergoing Radical Prostatectomy

Pandha, H.S., Javed, S., Sooriakumaran, P., Bott, S., Montgomery, B., Hutton, A., Eden, C., Langley, S.E., Morgan, Richard

05 1900

yes / The aim of this study was to assess the relationship between pre-prostatectomy urinary Engrailed-2 (EN2), a transcription factor secreted by prostate cancer cells, with tumour volume and pathological characteristics in resected prostate specimens. First pass urine samples (10 ml) without prior prostatic massage were collected and stored at –80°C. EN2 levels were measured using an enzyme-linked immunoabsorbent assay. Tumour volume in the prostatectomy specimens was determined histologically. 57 men undergoing RP in one urological cancer network were evaluated. EN2 was detected in 85% of RP patients. EN2 correlated with tumour volume (but not total prostatic volume) in a linear regression analysis, with increasing pathological T stage and margin positivity. Using three “cutoff levels” of tumour volume (0.5 ml, 1.3 ml and 2.5 ml) to define “significant disease”, men with “significant disease” had markedly higher levels of urinary EN2 (p < 0.001 for each cut off level). Levels of urinary EN2 may be useful in predicting tumour volume in men with prostate cancer by potentially identifying men with small volume “insignificant” disease. This study justifies a larger multicentre evaluation of urinary EN2 levels as a biomarker of PC significance using cancer volume, pathological and PSA criteria.

Biomarker; Prostate Cancer; Urine

Evaluation of Neurofilament Light Chain as a Biomarker in Dogs with Structural and Idiopathic Epilepsy

Fowler, Kayla Marie

31 May 2023

The objective of this prospective cohort study is to assess the use of neurofilament light chain (NfL) as a biomarker for diagnostic and therapeutic monitoring in dogs with idiopathic and structural epilepsy. A total of 50 dogs (36 idiopathic epilepsy and 14 structural epilepsy) were enrolled to contribute a total of 58 samples (52 serum and 6 cerebrospinal fluid (CSF)). Dogs diagnosed with structural epilepsy received magnetic resonance imaging (MRI). Dogs were grouped into acute seizures when they had a generalized seizure within the last 7 days and chronic seizures when they had no observed generalized seizures for the previous 30 days. Both serum and CSF NfL concentrations were measured using single molecule array technology (Simoa). The median serum concentration of NfL in dogs with structural epilepsy was 109 [11.4-741.3] pg/mL and 17.7 [5.8-188] pg/mL in dogs with idiopathic epilepsy regardless of the interictal interval. Serum NfL concentration was significantly increased in dogs with structural epilepsy when compared with dogs with idiopathic epilepsy (p < 0.001). There was no significant difference in NfL concentration in dogs with an interictal interval of 7 days compared to dogs with an interictal interval of 30 days. In dogs with seizures, serum NfL concentration may help discriminate between structural and idiopathic epilepsy. Future studies are needed to determine its role in differentiating true seizure events from seizure mimics. / Master of Science / Generalized seizures due to epilepsy is the most frequent neurologic problem in dogs presenting to veterinary hospitals. Idiopathic epilepsy is the most common underlying cause for seizures to occur in young dogs. Structural epilepsy occurs due to a brain tumor, encephalitis or stroke and is more common in dogs greater than six years of age. A diagnosis of structural epilepsy typically requires an identifiable structural abnormality on magnetic resonance imaging (MRI) and / or cerebrospinal fluid (CSF) analysis. A diagnosis of idiopathic epilepsy is suggested when these tests are normal. Performing these diagnostics is not always feasible for a variety of reasons (accessibility, cost, anesthetic safety). Therefore, it is important to investigate alternative options for the diagnosis of idiopathic epilepsy. It can also be difficult for pet owners to witness and document every seizure for an accurate seizure frequency history. Investigating new methods for assessing seizure control is also warranted. This study was performed to gain knowledge about the measurement of a neuron specific biomarker that can be measured in both blood and CSF for the diagnosis of structural epilepsy and therapeutic monitoring of seizure control. It appears that the measurement of serum neurofilament light chain (NfL) can serve as an alternative for the differentiation of idiopathic and structural epilepsy as NfL concentration was significantly increased in dogs with structural epilepsy. There was no difference in NfL concentration between dogs with recent seizures and dogs with well-controlled seizures. Additional research is needed to assess its use in differentiating true seizures from other neurologic or cardiac episodes that can appear similar.

Epilepsy

Canine

Biomarker

The application of a transgenic strain of the nematode Caenorhabditis elegans to the biomonitoring of metal polluted soil

Power, Rowena Suzanne

January 2000

No description available.

615.9

Biomarker; Heat shock proteins

Fatty Acid Ethyl Esters (FAEE), A Biomarker of Alcohol Exposure: Hope for a Silent Epidemic of Fetal Alcohol Affected Children

Kulaga, Vivian

24 September 2009

One percent of children in North America may be affected by fetal alcohol spectrum disorder (FASD). FASD remains difficult to diagnose because confirmation of maternal alcohol use is a diagnostic criterion, and women consuming alcohol during pregnancy are reluctant to divulge this information for fear of stigmatization and losing custody of the child. Consequently, using a biomarker to assess alcohol exposure would provide a tremendous advantage. Recently, the measurement of fatty acid ethyl ester (FAEE) in hair has provided a powerful tool for assessing alcohol exposure. My thesis fills a translational gap of research between the development of the FAEE hair test and its application in the context of FASD. The guinea pig has been a critical model for FASD research, in which FAEE hair analysis has previously distinguished ethanol-exposed dams/offspring from controls. My first study, reports a positive dose-concentration relationship between alcohol exposure and hair FAEE, in the human, and the guinea pig. Humans also displayed over an order of magnitude higher FAEE incorporation per equivalent alcohol exporsure, suggesting that the test will be a sensitive clinical marker of fetal alcohol exposure. My second study utilized multi-coloured rats to investigate the potential of a hair-colour bias, as has been reported for other clinical hair assays; no evidence of bias is reported here. My third study is the first to examine the clinical use of the FAEE hair test in parents at high risk of having children with FASD. Over one third of parents tested positive for excessive alcohol use. Parents were investigated by social workers working for child protection services, and my fourth study reports that hair FAEE results agree with social worker reports. Individuals highly suspected of abusing alcohol were at a significantly greater risk of testing positive, whereas individuals tested based on other reasons (such as to cover all bases) were negatively associated with testing positive. The last study of my thesis, confirmed an association between alcohol and drug use by parents at high risk for having children with FASD, posing an added risk to children. This work helps bridge a gap in translational research, suggesting that the FAEE hair test has potential for use in FASD diagnosis and research.

Alcohol

Biomarker

FAEE

FASD

0369

Neue Biomarker zum Nachweis von Nierentoxizität / Novel Biomarker of Nephrotoxicity

Hoffmann, Dana

January 2010

Der Prozess von der Entdeckung und Entwicklung eines potentiellen Arzneistoffs bis zu dessen Zulassung ist extrem kosten&#8208; und zeitintensiv und eine Vielzahl dieser Stoffe kann aufgrund toxischer Nebenwirkungen in präklinischen Studien nicht weiterentwickelt werden. Dabei ist die Niere eines der Hauptziele von Xenobiotika&#8208;induzierter Organtoxizität, jedoch ist eine frühe Detektion von Nierenschäden schwierig. Den derzeitig verwendeten klinischen Parameter, wie Blutharnstoff (BUN) und Serumkreatinin fehlt es an Sensitivität und Spezifität, da sie Fremdstoff&#8208;induzierte Toxizität meist erst aufzeigen, wenn schon ein erheblicher Teil der Nierenfunktion beeinträchtigt ist. Daher ist es notwendig, empfindlichere und zuverlässigere Biomarker zu identifizieren und zu validieren, welche kleinste Nierenschädigungen früher als traditionelle Parameter erkennen. In den letzten Jahren wurden in der Literatur aber auch von verschiedenen Projekten eine Reihe neuer gen&#8208;basierender und Urinbiomarker (Kim&#8208;1, Clusterin, Lipocalin&#8208;2, Timp&#8208;1) identifiziert. Ziel dieser Dissertation war es die Aussagekraft dieser Marker im Vergleich zu traditionellen Endpunkten, einschließlich klinische Chemie und Histopathologie an Gewebe&#8208;, Urin&#8208; und Serumproben von männlichen Ratten, welche mit Modellsubstanzen für Nephrotoxizität (Aristolochiasäure und Gentamicin) oder nephrotoxischen Arzneistoffkandidaten (PredTox Projekt) behandelt wurden, mittels qRT&#8208;PCR, Immunhistochemie und ELISA zu untersuchen. Zusammenfassend kann man sagen, dass die Effekte auf Ebene der Gen&#8208; und Proteinexpression generell sehr gut mit den histopathologischen Veränderungen korrelieren. Sie konnten meist früher oder in niedrigeren Dosierungen als die traditionellen Nierenmarker BUN und Serumkreatinin detektiert werden. Eine erhöhte Expression und Exkretion von Kim&#8208;1 zeigte sich in allen Studien als eine der frühesten Antworten auf Schädigung der proximalen Tubuli und stellt somit den empfindlichsten Biomarker dar. Die erhöhte Ausscheidung von Clusterin konnte teilweise vor einer veränderten Gen&#8208; und Proteinexpression im Gewebe detektiert werden und unterstützen die Verwendung von Clusterin als nicht&#8208;invasiven Biomarker. Obwohl eine gesteigerte Exkretion von Lipocalin&#8208;2 sehr früh nach Schädigung des proximalen Tubulus detektiert werden konnte, ist diese nicht spezifisch für einen Nierenschaden. Dennoch könnte die vermehrte Expression/Ausscheidung von Lipocalin&#8208;2 als frühe Antwort auf eine Entzündung oder einen Gewebeschaden eine sinnvolle Ergänzung der routinemäßigen Testung auf Toxizität darstellen. Ebenfalls konnte ein dosis&#8208; und zeitabhängiger Konzentrationsanstieg von einem Großteil der potentiellen Biomarker des „WideScreen™ Rat Kidney Toxicity Panels 1 and 2“ im Urin beobachtet werden. Da jedoch die potentiellen Biomarker unterschiedliche Empfindlichkeiten besitzen und unter Umständen auch vom Mechanismus der Toxizität von Verbindungen abhängen, erscheint eine Kombination von verschiedenen Biomarkern zur frühzeitigen Erkennung von proximalen Nierenschäden sowie zur Verlaufskontrolle von Nierenerkrankungen sinnvoll. Durch die einfache Probenahme und leichte Bestimmung ist die Messung der neuen potentiellen Nierenbiomarker im Urin neben der Bestimmung der traditionellen Parameter der klinischen Chemie sowie der Histopathologie sinnvoll für die Identifizierung von Nierenschädigungen in präklinischen Studien. / The discovery and development of new drugs is very costly and time&#8208;consuming and the rate of drug failure due to late&#8208;breaking findings in preclinical toxicity studies is high. The kidney is a major target of xenobiotic induced organ toxicity but early detection of renal damage or minor effects on renal function is challenging due to the functional reserve of the kidney. Current clinical pathology parameters of nephrotoxicity such as blood urea nitrogen (BUN) and serum creatinine are relatively insensitive and non specific, revealing kidney damage not until 70&#8208;80 % of the renal epithelial mass has been lost. There is a clear need for the identification and validation of more sensitive and reliable biomarkers, which are indicators of minimal kidney damage rather than impaired kidney function. Recently a range of novel gene&#8208;based and urinary kidney biomarker (Kim&#8208;1, clusterin, lipocalin&#8208;2 and Timp&#8208;1) was identified from literature and various colloraborative projects. The aim of this work was to investigate the performance of these markers compared to traditional endpoints, such as clinical chemistry and histopathology in tissue, urine and serum samples collected from studies, in which male Wistar rats were treated either with model compounds of nephrotoxicity (aristolochic acid and gentamicin) or drug candidates (PredTox) using qRT&#8208;PCR, immunohistochemistry and ELISA. In summary, effects on marker gene and protein expression generally correlated well with the renal histopathology alterations and were frequently detected at earlier time&#8208;points or lower doses than the traditional clinical parameters BUN and serum creatinine. Overexpression and enhanced urinary excretion of Kim&#8208;1 was one of the earliest responses to proximal tubule damage and might be seen as the most sensitive marker of nephrotoxicity. Furthermore, urinary Clusterin was increased before changes in gene and protein expression or even histopathological alterations were evident, confirming urinary clusterin as a sensitive, non&#8208;invasive marker for renal injury. Although changes in urinary lipocalin&#8208;2 occurred very early after proximal tubule damage, lipocalin&#8208;2 may not specific for kidney injury. However, its rapid response to inflammation and tissue damage in general may reinforce its use in routine toxicity testing. A dose&#8208; and time&#8208;dependent increase in most of the novel urinary biomarkers was evident using the “WideScreen™ Rat Kidney Toxicity Panels 1 and 2”. Due to the the variable sensitivity of a single biomarker, a combination of many different biomarkers to detect kidney injury appears to be useful. Concerning of the easy sampling and measurement, the additional determination of potential urinary biomarkers of nephrotoxcity next to the traditional clinical chemistry parameters and histopathological changes is helpful to identify kidney damage at early time&#8208;points.

Biomarker

Nephrotoxizität

Niere

ddc:500

New approaches to improve prediction of drug-induced liver injury / Neue Ansätze zur verbesserten Vorhersage arzneimittelinduzierter Leberschäden

Adler, Melanie

January 2012

Das häufige Scheitern neuer Arzneistoffkandidaten aufgrund von Lebertoxizität in präklinischen und klinischen Studien stellt ein erhebliches Problem in der Entwicklung von neuen Arzneimitteln dar. Deshalb ist es wichtig, neue Ansätze zu entwickeln, mit deren Hilfe unerwünschte Wirkungen von Arzneimitteln früher und zuverlässiger erkannt werden können. Um die Vorhersage von Lebertoxizität in präklinischen Studien zu verbessern, wurden im Rahmen dieser Arbeit zwei wesentliche Ansätze gewählt: 1) die Evaluierung neuer Biomarker, durch die Lebertoxizität zuverlässiger und empfindlicher detektiert werden könnte und 2.) wirkmechanistische Untersuchungen mittels Toxcicogenomics für ein besseres Verständnis der zugrunde liegenden Mechanismen der Arzneimittel-induzierten Toxizität. Ein Ziel dieser Arbeit war, die Fähigkeit einiger neuer potenzieller Biomarker (NGAL, Thiostatin, Clusterin und PON1) zu bewerten, Arzmeimittel-induzierte Lebertoxizität in Ratten frühzeitig zu erkennen. Die Ergebnisse zeigen, dass PON1 und Clusterin infolge eines durch die verabreichten Arzneistoffkandidaten verursachten Leberschadens nicht konsistent verändert waren. Diese beiden Marker sind daher, verglichen mit bestehenden klinisch-chemischen Markern, nicht für eine sichere Vorhersage von Arzneistoff-induzierten Leberschäden geeignet. Bei Thiostatin und NGAL zeigte sich hingegen ein zeit- und dosisabhängiger Anstieg im Serum und Urin behandelter Tiere. Diese Veränderungen, die gut mit der mRNA Expression im Zielorgan übereinstimmten, korrelierten mit dem Schweregrad der Arzneistoff-induzierten Leberschäden. Die Analyse mittels ROC zeigte, Thiostatin im Serum, nicht aber NGAL, ein besserer Indikator für Arzneimittel-induzierte hepatobiliäre Schäden ist als die routinemäßig verwendeten klinische-chemischen Marker, wie z.B. die Leberenzyme ALP, ALT und AST. Thiostatin wird jedoch als Akute-Phase-Protein in einer Vielzahl von Geweben exprimiert und kann somit nicht spezifisch als Lebermarker betrachtet werden. Dennoch zeigen unsere Ergebnisse, dass Thiostatin als sensitiver, minimal-invasiver diagnostischer Marker für Entzündungsprozesse und Gewebeschäden eine sinnvolle Ergänzung in der präklinischen Testung auf Lebertoxizität darstellt. Im zweiten Teil dieser Arbeit wurde mittels RNA-Interferenz das pharmakologische Target des Arzneistoffkandidaten BAY16, der Glukagonrezeptor, auf mRNA-Ebene gehemmt und anhand von Genexpressionsanalysen untersucht, ob die pharmakologisch-bedingte Modulation des Glukagonrezeptors eine Rolle in der Toxizität von BAY16 spielt. Desweiteren sollten diese Arbeiten Aufschluss geben, welche molekularen Veränderungen auf die pharmakologische Wirkung des Arzneistoffs zurückzuführen sind, und daher für den Mechanismus der Toxizität möglicherweise wenig relevant sind. Während BAY16 in Konzentrationen von 75 µM starke zytotoxische Wirkungen aufwies, hatte die siRNA vermittelte Depletion des Glukagonrezeptors keinen Einfluss auf die Vitalität primärer Rattenhepatozyten. Daraus lässt sich ableiten, dass die Hepatotoxiziät von BAY16 in vitro und in vivo nicht mit der pharmakologischen Modulation des Glukagonrezeptors assoziiert ist. Diese Ergebnisse wurden durch die Tatsache gestützt, dass die meisten der durch BAY16 induzierten Genexpressionsveränderungen unabhängig von der pharmakologischen Modulation des Glucagonrezeptors auftraten. Diese beobachteten off-target-Effekte beinhalteten Veränderungen im Fremdstoffmetabolismus, oxidativer Stress, erhöhte Fettsäuresynthese und Veränderungen im Cholesterol- und Gallensäuremetabolismus. Obwohl Veränderungen in diesen molekularen Mechanismen zum Fortschreiten eines Leberschadens beitragen können, ist es anhand dieser Daten nicht möglich einen eindeutigen Mechanismus für die Toxizität von BAY16 abzuleiten. In dieser Arbeit konnte jedoch gezeigt werden, dass die Anwendung der siRNA-Technologie einen neuen methodischen Ansatz darstellt, um Mechanismen arzneimittelbedingter Toxizität besser verstehen zu können. / The high failure rate of new drug candidates in preclinical or clinical studies due to hepatotoxicity represents a considerable problem in the drug development. Hence, there is an urgent need to develop new approaches for early and reliable prediction of drug-induced hepatotoxicity that enables a better identification of drug candidates with high potential for toxicity at early stages of drug development. Therefore, the aim of this work was to improve the prediction of drug-induced liver injury in preclinical studies through evaluation of more reliable and sensitive biomarkers of hepatotoxicity and a better understanding of the underlying mechanistic basis for drug-induced toxicity. First, the ability of a set of potential markers (NGAL, thiostatin, clusterin, PON1) to detect early signs of liver injury was assessed in rats treated with drug candidates that were dropped from further development, in part due to toxic adverse effects in the liver. In summary, PON1 and clusterin were not consistently altered in response to liver injury and thus provide no additive information to the traditional liver enzymes in detecting drug-induced hepatotoxicity. In contrast, thiostatin and NGAL were increased in serum and urine of treated animals in a time- and dose-dependent manner. These changes correlated well with mRNA expression in the target organ and generally reflected the onset and degree of drug-induced liver injury. Receiver-operating characteristics analyses supported serum thiostatin, but not NGAL, as a better indicator of drug-induced hepatobiliary injury than conventional clinical chemistry parameters, such as ALP, ALT and AST. Although thiostatin, an acute phase protein expressed in a range of tissues, may not be specific for liver injury, our results indicate that thiostatin may serve as a sensitive, minimally-invasive diagnostic marker of inflammation and tissue damage in preclinical safety assessment. In the second part of this work, combined application of genomics profiling technology and RNAi to inhibit the pharmacological target of a drug candidate BAY16, a glucagon receptor (GCGR) antagonist, was used to determine if interference with the pharmacological target plays a role in the toxic response to BAY16, and to narrow down those molecular changes that are associated with toxicity, and not the pharmacological action of BAY16. In contrast to Bay 16, which was found to be cytotoxic at concentrations of 75 µM, silencing of the glucagon receptor did not affect cell viability in primary rat hepatocytes. Thus, it can be concluded that hepatotoxicity of Bay 16 was not related to the drugs inhibitory effect on the glucagon receptor in vitro and in vivo. These findings were supported by the fact that most of BAY16-induced changes in gene expression occurred independently of the pharmacological modulation of GCGR. These off-target effects include altered xenobiotic metabolism, oxidative stress, increased fatty acid synthesis, and alterations in cholesterol and bile acid metabolic processes. Although it was not possible to draw a final conclusion about the mechanism of BAY16 hepatotoxicity, changes in these molecular mechanisms appear contribute to progression of hepatic injury. With regard to drug safety assessment in preclinical studies, the utilization of siRNA technology in vitro represents a new approach to improve mechanistic understanding of the nature of drug’s toxicity, being either chemically mediated or due to primary or secondary pharmacological mode of action.

Biomarker

Leber

Hepatotoxizität

ddc:540

Definition eines klinisch relevanten Morbus Fabry mit Hilfe des Biomarkers Lyso Gb3 bei Patienten mit einer alpha- Galaktosidase Mutation / Definition of a clinical relevant Fabry Disease by the biomarker Lyso Gb3 in patients with an alpha- Galactosidase mutation

Kämpf, Tanja

January 2013

Der Morbus Fabry ist eine sehr heterogenetische und heterophänotypische Krankheit. Ursache der Erkrankung liegt in der Mutation des alpha- Galaktosidase Gens. Es kommt zur Akkumulation von Glykosphingolipiden. Man kann den klassischen Typ von mehreren Varianten unterscheiden. Es konnte bisher noch keine Genotyp- Phänotyp Relation hergestellt werden. In unsere Studie wurden 124 Fabry Patienten eingeschlossen. Vier klinische Domänen wurden beurteilt (Herz, Nieren, Nervensystem, Fabry-Symptome). Daneben wurden genetische Analysen und Labortests (inklusive Lyso Gb3) durchgeführt. Die Studie besitzt einen zweiteiligen Aufbau: in die Evaluationsstudie wurden alle bisher bekannten Mutationen eingeschlossen, während die bisher unbekannten Mutationen der Validierungsstudie zugeteilt wurden. Es konnte gezeigt werden, dass mithilfe des Biomarkers Lyso Gb3 die Schwere der Erkrankung vorausgesagt werden kann (insbesondere bei Frauen) und die Diagnostik erleichtert werden kann. Eine bisher unbekannte Mutation kann jetzt viel besser eingeordnet werden, da man mithilfe des Biomarkers Lyso Gb3 zwischen atypischer und klassischer Variante unterscheiden kann und man durch den Biomarker die Krankheitskapazität einer Mutation beurteilen kann. / Fabry disease is a lysosomal storage disorder caused by mutations in the alpha-galactosidase A gene. This leads to a deficiency of alpha-galactosidase A. Therefore globotriaosylceramide accumulate in all tissues containing lysosomes. There is the classical phenotyp and the atypical one. No method to differentiate these variants is available so far. Our study includes 124 Fabry patients. Detailed clinical investigations of the heart, kidneys and the nervous system were made. Apart from that the biomarker lyso-Gb3 was measured in every patient. The study consists of two parts: Part one (evaluation) includes all previously described mutations and part two (validation) all unknown mutations. We could show that the disease-capacity of a mutation can be analyzed by lyso Gb3 and that it is possible to differentiate a classical from an atypical mutation by the biomarker lyso Gb3.

Fabry-Krankheit

Biomarker

ddc:610

Untersuchung potenzieller Biomarker in Haut- und Nervenbiopsaten von Patienten mit schmerzhaften und schmerzlosen Polyneuropathien / Investigation of potential biomarkers in skin and sural nerve biopsies of patients with painful and painless polyneuropathies

Schubert, Anna-Lena

January 2017

Polyneuropathien sind eine ätiologisch heterogene Erkrankung des peripheren Nervensystems. In bis zu 30% der Fälle ist eine Zuordnung zu einem bestimmten PNP Subtyp auch nach aufwändiger und zum Teil invasiver Diagnostik nicht möglich. Bislang fehlt ein diagnostischer Biomarker bei PNP, der z.B. bei der Unterscheidung zwischen einzelnen diagnostischen Subgruppen oder entzündlichen und nicht-entzündlichen Erkrankungsformen helfen könnte. In einer prospektiven Studie mit insgesamt 97 Patienten mit Neuropathien verschiedenster Ätiologie und 17 gesunden Kontrollpersonen erstellten wir Genexpressionsprofile von inflammatorischen Markern und Markern der Regeneration peripherer Nerven in Haut- und N. suralis-Biopsaten. Es wurden Inflammationsmarker (TAC1, CRMP2, AIF1, IL-6) und Marker, die in die Regeneration peripherer Nerven involviert sind (SCD, Netrin-1, DCC, UNC5H2, NEO1, Netrin-G1, Netrin-G2), mittels qRT-PCR untersucht. Alle Patienten erhielten eine N. suralis-Biopsie und/oder eine Hautbiopsie von Ober- beziehungsweise Unterschenkel. Weder in den Haut- noch in den N. suralis-Biopsaten konnten Unterschiede in der Genexpression dieser Marker zwischen einzelnen diagnostischen Subgruppen gefunden werden. Der Inflammationsmarker AIF1 war jedoch in Patienten-Hautproben sowohl proximal als auch distal höher exprimiert als bei gesunden Kontrollpersonen (p < 0,05 bzw. p < 0,01). Zudem fand sich in den Hautproben von PNP-Patienten eine deutlich reduzierte Genexpression von Regenerationsmarkern aus der Netrin-Familie verglichen mit den Hautproben gesunder Probanden (Netrin-1, DCC, UNC5H2, NEO1 sowie Netrin-G1 und G2; p < 0,05 bis p < 0,001). Ferner wies Netrin-1 in distalen Hautproben bei Patienten mit einer entzündlichen PNP eine niedrigere Genexpression auf, als bei Patienten mit einer nicht-entzündlichen Erkrankungsform (p < 0,05). Die Genexpression von NEO1 in distalen Hautproben war bei schmerzloser PNP und gesunden Kontrollpersonen höher als bei schmerzhafter PNP (p < 0,05). Sowohl eine Erhöhung bestimmter Inflammationsmarker als auch eine Verminderung von Regenerationsmarkern peripherer Nerven können bei der Pathophysiologie von Polyneuropathien involviert sein. Insbesondere Mitglieder der Netrin-Familie scheinen eine komplexe Rolle für das Axonwachstum, jedoch auch für entzündliche Prozesse zu spielen. / Polyneuropathien sind eine ätiologisch heterogene Erkrankung des peripheren Nervensystems. In bis zu 30% der Fälle ist eine Zuordnung zu einem bestimmten PNP Subtyp auch nach aufwändiger und zum Teil invasiver Diagnostik nicht möglich. Bislang fehlt ein diagnostischer Biomarker bei PNP, der z.B. bei der Unterscheidung zwischen einzelnen diagnostischen Subgruppen oder entzündlichen und nicht-entzündlichen Erkrankungsformen helfen könnte. In einer prospektiven Studie mit insgesamt 97 Patienten mit Neuropathien verschiedenster Ätiologie und 17 gesunden Kontrollpersonen erstellten wir Genexpressionsprofile von inflammatorischen Markern und Markern der Regeneration peripherer Nerven in Haut- und N. suralis-Biopsaten. Es wurden Inflammationsmarker (TAC1, CRMP2, AIF1, IL-6) und Marker, die in die Regeneration peripherer Nerven involviert sind (SCD, Netrin-1, DCC, UNC5H2, NEO1, Netrin-G1, Netrin-G2), mittels qRT-PCR untersucht. Alle Patienten erhielten eine N. suralis-Biopsie und/oder eine Hautbiopsie von Ober- beziehungsweise Unterschenkel. Weder in den Haut- noch in den N. suralis-Biopsaten konnten Unterschiede in der Genexpression dieser Marker zwischen einzelnen diagnostischen Subgruppen gefunden werden. Der Inflammationsmarker AIF1 war jedoch in Patienten-Hautproben sowohl proximal als auch distal höher exprimiert als bei gesunden Kontrollpersonen (p < 0,05 bzw. p < 0,01). Zudem fand sich in den Hautproben von PNP-Patienten eine deutlich reduzierte Genexpression von Regenerationsmarkern aus der Netrin-Familie verglichen mit den Hautproben gesunder Probanden (Netrin-1, DCC, UNC5H2, NEO1 sowie Netrin-G1 und G2; p < 0,05 bis p < 0,001). Ferner wies Netrin-1 in distalen Hautproben bei Patienten mit einer entzündlichen PNP eine niedrigere Genexpression auf, als bei Patienten mit einer nicht-entzündlichen Erkrankungsform (p < 0,05). Die Genexpression von NEO1 in distalen Hautproben war bei schmerzloser PNP und gesunden Kontrollpersonen höher als bei schmerzhafter PNP (p < 0,05). Sowohl eine Erhöhung bestimmter Inflammationsmarker als auch eine Verminderung von Regenerationsmarkern peripherer Nerven können bei der Pathophysiologie von Polyneuropathien involviert sein. Insbesondere Mitglieder der Netrin-Familie scheinen eine komplexe Rolle für das Axonwachstum, jedoch auch für entzündliche Prozesse zu spielen. Polyneuropathies as frequently occurring neurologic diseases are caused by many different etiologies. Despite extensive and partly invasive diagnostic workup up to 30% of the cases can’t be assigned to one kind of neuropathic subtype. There is a strong need for diagnostic biomarkers that could help to distinguish between different subgroups of polyneuropathies, especially inflammatory and non-inflammatory ones. In a prospective study we characterized gene expression profiles of pro- inflammatory markers (TAC1, CRMP2, AIF1, IL-6) and targets involved in neuronal regeneration (SCD, Netrin-1, DCC, UNC5H2, NEO1, Netrin-G1, Netrin-G2) in skin and sural nerve biopsies of 97 patients with different subtypes of polyneuropathies and 17 healthy controls via quantitative real-time PCR. All patients underwent sural nerve and/or skin punch biopsy at the lateral thigh and lower leg. Either skin or sural nerve gene expression of the investigated targets did not differ between neuropathies of different etiologies. But the pro-inflammatory target AIF1 was upregulated in proximal and distal skin biopsies of patients compared to healthy controls (p < 0,05 / p < 0,01). Furthermore the gene expression of members of the Netrin-familiy (Netrin-1, DCC, UNC5H2, NEO1, Netrin G1 and –G2) which are involved in neuronal regeneration was decreased in skin biopsies of patients compared to healthy controls (p < 0,05 / p < 0,01 , p < 0,001). Moreover Netrin-1 showed a higher gene expression in distal skin biopsies of patients with non-inflammatory neuropathies compared to inflammatory forms of disease (p < 0,05). The gene expression level of NEO1 in distal skin biopsies of painless polyneuropathies and healthy controls was higher than in painful patients (P < 0,05). Both an increase of pro-inflammatory markers and a decrease of targets involved in neuronal regeneration seem to be involved in the pathophysiology of polyneuropathies. Especially members of the Netrin-family appear to play a complex role in the axonal outgrowth and also in pro-inflammatory processes.

Biomarker

Polyneuropathie

Schmerz

ddc:616

The effects of weaning stress on the serum protein profile of calves : a proteomic analysis

Herzog, Katie R

08 June 2007

Studies in animals and humans link both physical and psychological stress with an increased rate and severity of infections and onset of diseases. Stress is a very broad and complex topic. It can be defined as a condition occurring in response to adverse external influences capable of affecting physical health which leads to activation of a stress response in the body. There are two prominent stress responsive systems: the hypothalamic-pituitary-adrenal axis and the sympathetic adrenomedullary axis. These systems are responsible for the majority of the changes in the body, which occur in response to stress. Stress has been linked to many detrimental effects in cattle including immune suppression, increased disease susceptibility and decreased reproduction. These cause huge economic losses to the cattle industry every year. Weaning has been identified as one of the main stressors implicated in these negative effects. For this reason it is important to be able to identify animals stressed by weaning and do so using samples which are easily obtainable and useful for future diagnostic purposes. We hypothesize that weaning will cause sufficient stress in cattle to alter protein profiles in serum, which can be used to identify this type of stress. To do this we employed proteomic methodologies including two-dimensional gel electrophoresis and mass spectrometry to compare an abrupt weaned group of calves to a never weaned group and a previously weaned group (preconditioned). We have included a preconditioned group to examine the differences between this group and animals which have never been weaned. Preconditioned animals are typically used as a control group in weaning studies. A total of 83 distinct protein bands were identified after image analysis. Out of 83 protein bands, we found 9 spots which were significantly different in abundance among the treatment groups. Two out of 9 spots were significantly different between the abrupt weaned and the never weaned groups. Five protein bands were also found to be significantly different between the abrupt weaned group and the preconditioned group. Five protein bands were found to be significantly different between the never weaned group and the preconditioned group. Identification of these proteins, however, had limited success since the bovine protein database is not as extensive as that for humans or mice. Among the proteins identified were alpha-1-acid glycoprotein and collagen precursor. The differences in intensities found between the abrupt weaned group and the never weaned group may be useful as markers of calves going through weaning stress. We have also seen that animals who have undergone weaning and through the stress associated with that event are not exactly the same as animals which have never been weaned. This has implications to research where a preconditioned group is used as a control rather than a never weaned group. Despite the limitations of the methodology used for the current system, the overall results revealed specific changes in serum proteins which were associated with abrupt weaned animals. Future studies can be planned to determine the specificity of these protein changes and possibly identify the molecular basis of stress dependent disease susceptibility.

serum proteome

Weaning stress

biomarker

The effects of weaning stress on the serum protein profile of calves : a proteomic analysis

Herzog, Katie R

08 June 2007

Studies in animals and humans link both physical and psychological stress with an increased rate and severity of infections and onset of diseases. Stress is a very broad and complex topic. It can be defined as a condition occurring in response to adverse external influences capable of affecting physical health which leads to activation of a stress response in the body. There are two prominent stress responsive systems: the hypothalamic-pituitary-adrenal axis and the sympathetic adrenomedullary axis. These systems are responsible for the majority of the changes in the body, which occur in response to stress. Stress has been linked to many detrimental effects in cattle including immune suppression, increased disease susceptibility and decreased reproduction. These cause huge economic losses to the cattle industry every year. Weaning has been identified as one of the main stressors implicated in these negative effects. For this reason it is important to be able to identify animals stressed by weaning and do so using samples which are easily obtainable and useful for future diagnostic purposes. We hypothesize that weaning will cause sufficient stress in cattle to alter protein profiles in serum, which can be used to identify this type of stress. To do this we employed proteomic methodologies including two-dimensional gel electrophoresis and mass spectrometry to compare an abrupt weaned group of calves to a never weaned group and a previously weaned group (preconditioned). We have included a preconditioned group to examine the differences between this group and animals which have never been weaned. Preconditioned animals are typically used as a control group in weaning studies. A total of 83 distinct protein bands were identified after image analysis. Out of 83 protein bands, we found 9 spots which were significantly different in abundance among the treatment groups. Two out of 9 spots were significantly different between the abrupt weaned and the never weaned groups. Five protein bands were also found to be significantly different between the abrupt weaned group and the preconditioned group. Five protein bands were found to be significantly different between the never weaned group and the preconditioned group. Identification of these proteins, however, had limited success since the bovine protein database is not as extensive as that for humans or mice. Among the proteins identified were alpha-1-acid glycoprotein and collagen precursor. The differences in intensities found between the abrupt weaned group and the never weaned group may be useful as markers of calves going through weaning stress. We have also seen that animals who have undergone weaning and through the stress associated with that event are not exactly the same as animals which have never been weaned. This has implications to research where a preconditioned group is used as a control rather than a never weaned group. Despite the limitations of the methodology used for the current system, the overall results revealed specific changes in serum proteins which were associated with abrupt weaned animals. Future studies can be planned to determine the specificity of these protein changes and possibly identify the molecular basis of stress dependent disease susceptibility.

serum proteome

Weaning stress

biomarker