Verfügbarkeit: Zebrafish locomotor activity as a sensitive effect-based tool for the assessment of environmental chemicals and mixtures

Zebrafish locomotor activity as a sensitive effect-based tool for the assessment of environmental chemicals and mixtures:

Gespeichert in:

Bibliographische Detailangaben
1. Verfasser:	Leuthold, David 1989- (VerfasserIn)
Format:	Abschlussarbeit Buch
Sprache:	English
Veröffentlicht:	Leipzig, Germany Helmholtz Centre for Environmental Research - UFZ 2020
Schriftenreihe:	Dissertation / Helmholtz-Zentrum für Umweltforschung, UFZ 2020,4
Schlagworte:	Zebrabärbling Neurotoxizität Verhalten Umweltchemikalie Hochschulschrift
Online-Zugang:	Inhaltsverzeichnis Inhaltsverzeichnis
Beschreibung:	xxiv, 156 Seiten Illustrationen, Diagramme 25 cm

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adam_text	CONTENTS 1 BACKGROUND AND MOTIVATION .............................................................................................. 1 1.1 CHEMICALS IN THE AQUATIC ENVIRONMENT .......................................................................... 1 1.2 FISH EMBRYO ACUTE TOXICITY (FET) TEST: ADVANTAGES, APPLICATIONS, AND LIMITATIONS ....... 2 1.3 NEUROACTIVE CHEMICALS: OUTSIDE THE APPLICABILITY DOMAIN OF THE FET TEST ..................... 3 1.4 BEHAVIORS IN EMBRYONIC AND EARLY LARVAL STAGE OF ZEBRAFISH AS POTENTIAL ENDPOINT IN ECOTOXICOLOGY ................................................................................................................. 3 1.5 AIM OF THE THESIS: BEHAVIOR-BASED IDENTIFICATION OF ENVIRONMENTALLY RELEVANT CHEMICALS AND RELATED MODES OF ACTION ......................................................................................... 5 1.5.1 ESTABLISHMENT OF A LIGHT-DARK TRANSITION ASSAY IN LARVAL ZEBRAFISH: WHICH PARAMETERS NEED TO BE CONSIDERED? .................................................................... 7 1.5.2 BEHAVIORAL PROFILING OF ENVIRONMENTAL CHEMICALS: ARE LOCOMOTOR RESPONSES TO CHEMICAL EXPOSURE INDICATIVE OF MODES OF ACTION? ........................................... 8 1.5.3 EVALUATION OF UNDERLYING MECHANISMS: WHAT IS THE BIOLOGICAL BACKGROUND OF CHEMICAL-INDUCED HYPERACTIVITY? ....................................................................... 10 1.5.4 COMBINED EFFECTS OF CHEMICALS ON LOCOMOTOR ACTIVITY: IS A COMBINED EFFECT ON LOCOMOTION PREDICTABLE FROM SINGLE COMPOUNDS EFFECTS AND CAN INDIVIDUAL BEHAVIORAL PROFILES BE RECOVERED FROM PROFILES OF MIXTURE EXPOSURE? .............. 10 2 ESTABLISHMENT OF A LIGHT-DARK TRANSITION ASSAY IN LARVAL ZEBRAFISH FOR THE ASSESSMENT OF ENVIRONMENTAL CHEMICALS ........................................................................................... 17 2.1 INTRODUCTION ................................................................................................................. 18 2.2 MATERIALS AND METHODS ............................................................................................... 21 2.2.1 FISH CULTURE AND EMBRYO COLLECTION .................................................................... 21 2.2.2 CHEMICALS AND STOCK PREPARATION ...................................................................... 21 2.2.3 DETERMINATION OFFISH EMBRYO ACUTE TOXICITY AND CONCENTRATION-RESPONSE MODELLING ............................................................................................................ 21 2.2.4 LOCOMOTOR RESPONSE ASSAY ............................................................................... 22 2.2.5 STATISTICAL ANALYSES AND HIERARCHICAL CLUSTERING ................................................. 22 2.3 RESULTS ........................................................................................................................ 23 2.3.1 THE DIURNAL RHYTHM OF NEWLY HATCHED ZEBRAFISH LARVAE .................................... 23 2.3.1 EXPERIMENTAL PARAMETERS ALTER LIGHT-DARK TRANSITION BEHAVIOR .......................... 23 2.3.3 CHEMICAL-INDUCED BEHAVIORAL ALTERATIONS DEPEND ON VARIOUS EXPOSURE SETTINGS ............................................................................................................... 23 2.3.4 DEVELOPMENTAL EXPOSURE AFFECTS ZEBRAFISH MORPHOLOGY .................................... 28 2.4 DISCUSSION ................................................................................................................... 29 CONTENTS XIV 3 CAN ENVIRONMENTALLY RELEVANT NEUROACTIVE CHEMICALS BE DETECTED SPECIFICALLY WITH THE LOCOMOTOR RESPONSE ASSAY IN ZEBRAFISH LARVAE? ..................................................... 39 3.1 INTRODUCTION ................................................................................................................... 39 3.2 MATERIALS AND METHODS ................................................................................................ 41 3.2.1 FISH CULTIVATION, EMBRYO COLLECTION, CHEMICALS AND STOCK PREPARATION .............. 41 3.2.2 EXPERIMENTAL DESIGN AND DETERMINATION OF EXPOSURE CONCENTRATIONS .............. 41 3.2.3 EXPOSURE AND LIGHT-DARK TRANSITION LOCOMOTOR RESPONSE ASSAY .......................... 41 3.2.4 ANALYSIS OF LOCOMOTOR ACTIVITY DATA ..................................................................... 42 3.2.5 MULTIDIMENSIONAL SCALING (MDS) AND CLUSTER ANALYSIS ........................................ 42 3.3 RESULTS ......................................................................................................................... 42 3.3.1 CONCENTRATION AND TIME DEPENDENCY OF BEHAVIORAL PROFILES ............................... 44 3.3.2 BEHAVIORAL PHENOTYPE-BASED CLUSTERING OF CHEMICALS ....................................... 45 3.3.3 SENSITIVITY OF LOCOMOTOR RESPONSES IN RELATION TO LETHAL ACUTE TOXICITY .............. 49 3.4 DISCUSSION .................................................................................................................... 54 4 CO-OCCURRENCE OF ACETYLCHOLINESTERASE INHIBITION AND BRADYCARDIA IS ASSOCIATED BUT NOT CAUSALLY LINKED WITH HYPERLOCOMOTION IN ZEBRAFISH LARVAE AFTER CHEMICAL EXPOSURE ............................................................................................................................ 65 4.1 INTRODUCTION ................................................................................................................... 65 4.2 MATERIALS AND METHODS ................................................................................................ 67 4.2.1 FISH CULTIVATION AND EMBRYO COLLECTION ............................................................... 67 4.2.2 CHEMICALS AND STOCK PREPARATION ....................................................................... 68 4.2.3 EXPOSURE AND PRE-INCUBATION .............................................................................. 68 4.2.4 LIGHT-DARK TRANSITION ASSAY AND ANALYSIS OF LOCOMOTOR ACTIVITY DATA ................... 68 4.2.5 QUANTIFICATION OF ACETYLCHOLINESTERASE ACTIVITY .................................................... 69 4.2.6 HEART RATE DETERMINATION ..................................................................................... 69 4.2.7 HIERARCHICAL CLUSTERING AND MULTIDIMENSIONAL SCALING ........................................ 70 4.3 RESULTS ......................................................................................................................... 70 4.3.1 ACETYLCHOLINESTERASE INHIBITORS AND HERBICIDES CAUSE A HYPERACTIVE LOCOMOTOR PHENOTYPE ........................................................................................................... 70 4.3.2 INHIBITION OF ACETYLCHOLINESTERASE IS NOT CORRELATED WITH HYPERLOCOMOTION ........ 72 4.3.3 ACETYLCHOLINESTERASE INHIBITORS AND HERBICIDES CAUSE BRADYCARDIA ................... 75 4.3.4 CARDIOSELECTIVE DRUGS ONLY PARTIALLY COPY HYPERACTIVE PHENOTYPES ................... 76 4.3.5 HEART RATE AND LOCOMOTOR ACTIVITY ARE PARTIALLY CO-REGULATED .............................. 78 4.4 DISCUSSION .................................................................................................................... 78 CONTENTS 5 COMBINED EFFECTS OF CHEMICAL MIXTURES ON LOCOMOTOR ACTIVITY: PREDICTION AND DIAGNOSTIC POTENTIAL OF BEHAVIORAL ALTERATIONS IN LARVAL ZEBRAFISH ............................... 91 5.1 INTRODUCTION ................................................................................................................. 91 5.2 MATERIALS AND METHODS ............................................................................................... 93 5.2.1 FISH CULTIVATION AND EMBRYO COLLECTION ............................................................... 93 5.2.2 CHEMICALS AND STOCK PREPARATION ...................................................................... 93 5.2.3 MIXTURE DESIGN AND MIXTURE EFFECT PREDICTION ..................................................... 94 5.2.4 EXPOSURE, LOCOMOTOR RESPONSE ASSAY, AND DATA ANALYSIS ................................ 95 5.2.5 MULTIDIMENSIONAL SCALING .................................................................................... 95 5.2.6 QUANTIFICATION OF ACETYLCHOLINESTERASE ACTIVITY, HEART RATE, AND MORPHOLOGICAL FEATURES .............................................................................................................. 95 5.3 RESULTS ........................................................................................................................ 96 5.3.1 CLASSICAL CONCENTRATION RESPONSE MODELS ARE APPLICABLE TO LOCOMOTOR ACTIVITY ............................................................................................................... 96 5.3.2 MIXTURES OF CHEMICALS ACT ADDITIVELY ON LOCOMOTOR ACTIVITY .............................. 97 5.3.3 DESIGN OF AN ENVIRONMENTALLY RELEVANT MIXTURE TO EXAMINE THE DIAGNOSTIC POTENTIAL OF LOCOMOTOR RESPONSE PATTERNS ......................................................... 100 5.3.4 DETERMINATION OFCOX INHIBITOR-SPECIFIC BEHAVIORAL PHENOTYPES ..................... 101 5.3.5 BEHAVIORAL PHENOTYPES DETERMINED WITH A QUINARY MIXTURE OF CHEMICALS RESEMBLE DISTINCT PROFILES OF INDIVIDUAL COMPONENTS ........................................ 103 5.4 DISCUSSION ................................................................................................................. 105 6 CONCLUSIONS AND FUTURE PERSPECTIVES .......................................................................... 115 6.1 BEHAVIORAL ENDPOINTS IN THE EFFECT-BASED ASSESSMENT OF CHEMICALS AND MIXTURES ..116 6.2 DIAGNOSTIC CAPACITY OF BEHAVIORAL PHENOTYPES .......................................................... 119 APPENDIX ............................................................................................................................. 123 A SUPPORTING INFORMATION - CHAPTER 2 ........................................................................... 124 B SUPPORTING INFORMATION - CHAPTER 3 ........................................................................... 131 C SUPPORTING INFORMATION - CHAPTER 4 ........................................................................... 143 D SUPPORTING INFORMATION - CHAPTER 5 ........................................................................... 151 XV
adam_txt	CONTENTS 1 BACKGROUND AND MOTIVATION . 1 1.1 CHEMICALS IN THE AQUATIC ENVIRONMENT . 1 1.2 FISH EMBRYO ACUTE TOXICITY (FET) TEST: ADVANTAGES, APPLICATIONS, AND LIMITATIONS . 2 1.3 NEUROACTIVE CHEMICALS: OUTSIDE THE APPLICABILITY DOMAIN OF THE FET TEST . 3 1.4 BEHAVIORS IN EMBRYONIC AND EARLY LARVAL STAGE OF ZEBRAFISH AS POTENTIAL ENDPOINT IN ECOTOXICOLOGY . 3 1.5 AIM OF THE THESIS: BEHAVIOR-BASED IDENTIFICATION OF ENVIRONMENTALLY RELEVANT CHEMICALS AND RELATED MODES OF ACTION . 5 1.5.1 ESTABLISHMENT OF A LIGHT-DARK TRANSITION ASSAY IN LARVAL ZEBRAFISH: WHICH PARAMETERS NEED TO BE CONSIDERED? . 7 1.5.2 BEHAVIORAL PROFILING OF ENVIRONMENTAL CHEMICALS: ARE LOCOMOTOR RESPONSES TO CHEMICAL EXPOSURE INDICATIVE OF MODES OF ACTION? . 8 1.5.3 EVALUATION OF UNDERLYING MECHANISMS: WHAT IS THE BIOLOGICAL BACKGROUND OF CHEMICAL-INDUCED HYPERACTIVITY? . 10 1.5.4 COMBINED EFFECTS OF CHEMICALS ON LOCOMOTOR ACTIVITY: IS A COMBINED EFFECT ON LOCOMOTION PREDICTABLE FROM SINGLE COMPOUNDS' EFFECTS AND CAN INDIVIDUAL BEHAVIORAL PROFILES BE RECOVERED FROM PROFILES OF MIXTURE EXPOSURE? . 10 2 ESTABLISHMENT OF A LIGHT-DARK TRANSITION ASSAY IN LARVAL ZEBRAFISH FOR THE ASSESSMENT OF ENVIRONMENTAL CHEMICALS . 17 2.1 INTRODUCTION . 18 2.2 MATERIALS AND METHODS . 21 2.2.1 FISH CULTURE AND EMBRYO COLLECTION . 21 2.2.2 CHEMICALS AND STOCK PREPARATION . 21 2.2.3 DETERMINATION OFFISH EMBRYO ACUTE TOXICITY AND CONCENTRATION-RESPONSE MODELLING . 21 2.2.4 LOCOMOTOR RESPONSE ASSAY . 22 2.2.5 STATISTICAL ANALYSES AND HIERARCHICAL CLUSTERING . 22 2.3 RESULTS . 23 2.3.1 THE DIURNAL RHYTHM OF NEWLY HATCHED ZEBRAFISH LARVAE . 23 2.3.1 EXPERIMENTAL PARAMETERS ALTER LIGHT-DARK TRANSITION BEHAVIOR . 23 2.3.3 CHEMICAL-INDUCED BEHAVIORAL ALTERATIONS DEPEND ON VARIOUS EXPOSURE SETTINGS . 23 2.3.4 DEVELOPMENTAL EXPOSURE AFFECTS ZEBRAFISH MORPHOLOGY . 28 2.4 DISCUSSION . 29 CONTENTS XIV 3 CAN ENVIRONMENTALLY RELEVANT NEUROACTIVE CHEMICALS BE DETECTED SPECIFICALLY WITH THE LOCOMOTOR RESPONSE ASSAY IN ZEBRAFISH LARVAE? . 39 3.1 INTRODUCTION . 39 3.2 MATERIALS AND METHODS . 41 3.2.1 FISH CULTIVATION, EMBRYO COLLECTION, CHEMICALS AND STOCK PREPARATION . 41 3.2.2 EXPERIMENTAL DESIGN AND DETERMINATION OF EXPOSURE CONCENTRATIONS . 41 3.2.3 EXPOSURE AND LIGHT-DARK TRANSITION LOCOMOTOR RESPONSE ASSAY . 41 3.2.4 ANALYSIS OF LOCOMOTOR ACTIVITY DATA . 42 3.2.5 MULTIDIMENSIONAL SCALING (MDS) AND CLUSTER ANALYSIS . 42 3.3 RESULTS . 42 3.3.1 CONCENTRATION AND TIME DEPENDENCY OF BEHAVIORAL PROFILES . 44 3.3.2 BEHAVIORAL PHENOTYPE-BASED CLUSTERING OF CHEMICALS . 45 3.3.3 SENSITIVITY OF LOCOMOTOR RESPONSES IN RELATION TO LETHAL ACUTE TOXICITY . 49 3.4 DISCUSSION . 54 4 CO-OCCURRENCE OF ACETYLCHOLINESTERASE INHIBITION AND BRADYCARDIA IS ASSOCIATED BUT NOT CAUSALLY LINKED WITH HYPERLOCOMOTION IN ZEBRAFISH LARVAE AFTER CHEMICAL EXPOSURE . 65 4.1 INTRODUCTION . 65 4.2 MATERIALS AND METHODS . 67 4.2.1 FISH CULTIVATION AND EMBRYO COLLECTION . 67 4.2.2 CHEMICALS AND STOCK PREPARATION . 68 4.2.3 EXPOSURE AND PRE-INCUBATION . 68 4.2.4 LIGHT-DARK TRANSITION ASSAY AND ANALYSIS OF LOCOMOTOR ACTIVITY DATA . 68 4.2.5 QUANTIFICATION OF ACETYLCHOLINESTERASE ACTIVITY . 69 4.2.6 HEART RATE DETERMINATION . 69 4.2.7 HIERARCHICAL CLUSTERING AND MULTIDIMENSIONAL SCALING . 70 4.3 RESULTS . 70 4.3.1 ACETYLCHOLINESTERASE INHIBITORS AND HERBICIDES CAUSE A HYPERACTIVE LOCOMOTOR PHENOTYPE . 70 4.3.2 INHIBITION OF ACETYLCHOLINESTERASE IS NOT CORRELATED WITH HYPERLOCOMOTION . 72 4.3.3 ACETYLCHOLINESTERASE INHIBITORS AND HERBICIDES CAUSE BRADYCARDIA . 75 4.3.4 CARDIOSELECTIVE DRUGS ONLY PARTIALLY COPY HYPERACTIVE PHENOTYPES . 76 4.3.5 HEART RATE AND LOCOMOTOR ACTIVITY ARE PARTIALLY CO-REGULATED . 78 4.4 DISCUSSION . 78 CONTENTS 5 COMBINED EFFECTS OF CHEMICAL MIXTURES ON LOCOMOTOR ACTIVITY: PREDICTION AND DIAGNOSTIC POTENTIAL OF BEHAVIORAL ALTERATIONS IN LARVAL ZEBRAFISH . 91 5.1 INTRODUCTION . 91 5.2 MATERIALS AND METHODS . 93 5.2.1 FISH CULTIVATION AND EMBRYO COLLECTION . 93 5.2.2 CHEMICALS AND STOCK PREPARATION . 93 5.2.3 MIXTURE DESIGN AND MIXTURE EFFECT PREDICTION . 94 5.2.4 EXPOSURE, LOCOMOTOR RESPONSE ASSAY, AND DATA ANALYSIS . 95 5.2.5 MULTIDIMENSIONAL SCALING . 95 5.2.6 QUANTIFICATION OF ACETYLCHOLINESTERASE ACTIVITY, HEART RATE, AND MORPHOLOGICAL FEATURES . 95 5.3 RESULTS . 96 5.3.1 CLASSICAL CONCENTRATION RESPONSE MODELS ARE APPLICABLE TO LOCOMOTOR ACTIVITY . 96 5.3.2 MIXTURES OF CHEMICALS ACT ADDITIVELY ON LOCOMOTOR ACTIVITY . 97 5.3.3 DESIGN OF AN ENVIRONMENTALLY RELEVANT MIXTURE TO EXAMINE THE DIAGNOSTIC POTENTIAL OF LOCOMOTOR RESPONSE PATTERNS . 100 5.3.4 DETERMINATION OFCOX INHIBITOR-SPECIFIC BEHAVIORAL PHENOTYPES . 101 5.3.5 BEHAVIORAL PHENOTYPES DETERMINED WITH A QUINARY MIXTURE OF CHEMICALS RESEMBLE DISTINCT PROFILES OF INDIVIDUAL COMPONENTS . 103 5.4 DISCUSSION . 105 6 CONCLUSIONS AND FUTURE PERSPECTIVES . 115 6.1 BEHAVIORAL ENDPOINTS IN THE EFFECT-BASED ASSESSMENT OF CHEMICALS AND MIXTURES .116 6.2 DIAGNOSTIC CAPACITY OF BEHAVIORAL PHENOTYPES . 119 APPENDIX . 123 A SUPPORTING INFORMATION - CHAPTER 2 . 124 B SUPPORTING INFORMATION - CHAPTER 3 . 131 C SUPPORTING INFORMATION - CHAPTER 4 . 143 D SUPPORTING INFORMATION - CHAPTER 5 . 151 XV
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physical	xxiv, 156 Seiten Illustrationen, Diagramme 25 cm
publishDate	2020
publishDateSearch	2020
publishDateSort	2020
publisher	Helmholtz Centre for Environmental Research - UFZ
record_format	marc
series2	Dissertation / Helmholtz-Zentrum für Umweltforschung, UFZ
spelling	Leuthold, David 1989- Verfasser (DE-588)1221607928 aut Zebrafish locomotor activity as a sensitive effect-based tool for the assessment of environmental chemicals and mixtures vorgelegt von David Leuthold Leipzig, Germany Helmholtz Centre for Environmental Research - UFZ 2020 xxiv, 156 Seiten Illustrationen, Diagramme 25 cm txt rdacontent n rdamedia nc rdacarrier Dissertation / Helmholtz-Zentrum für Umweltforschung, UFZ 2020,4 Dissertation RWTH Aachen 2020 Zebrabärbling (DE-588)4079468-4 gnd rswk-swf Neurotoxizität (DE-588)4123836-9 gnd rswk-swf Verhalten (DE-588)4062860-7 gnd rswk-swf Umweltchemikalie (DE-588)4117281-4 gnd rswk-swf (DE-588)4113937-9 Hochschulschrift gnd-content Zebrabärbling (DE-588)4079468-4 s Verhalten (DE-588)4062860-7 s Umweltchemikalie (DE-588)4117281-4 s Neurotoxizität (DE-588)4123836-9 s DE-604 Helmholtz-Zentrum für Umweltforschung, UFZ Dissertation 2020,4 (DE-604)BV022864787 2020,4 B:DE-101 application/pdf https://d-nb.info/1223879879/04 Inhaltsverzeichnis DNB Datenaustausch application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=032783450&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis
spellingShingle	Leuthold, David 1989- Zebrafish locomotor activity as a sensitive effect-based tool for the assessment of environmental chemicals and mixtures Zebrabärbling (DE-588)4079468-4 gnd Neurotoxizität (DE-588)4123836-9 gnd Verhalten (DE-588)4062860-7 gnd Umweltchemikalie (DE-588)4117281-4 gnd
subject_GND	(DE-588)4079468-4 (DE-588)4123836-9 (DE-588)4062860-7 (DE-588)4117281-4 (DE-588)4113937-9
title	Zebrafish locomotor activity as a sensitive effect-based tool for the assessment of environmental chemicals and mixtures
title_auth	Zebrafish locomotor activity as a sensitive effect-based tool for the assessment of environmental chemicals and mixtures
title_exact_search	Zebrafish locomotor activity as a sensitive effect-based tool for the assessment of environmental chemicals and mixtures
title_exact_search_txtP	Zebrafish locomotor activity as a sensitive effect-based tool for the assessment of environmental chemicals and mixtures
title_full	Zebrafish locomotor activity as a sensitive effect-based tool for the assessment of environmental chemicals and mixtures vorgelegt von David Leuthold
title_fullStr	Zebrafish locomotor activity as a sensitive effect-based tool for the assessment of environmental chemicals and mixtures vorgelegt von David Leuthold
title_full_unstemmed	Zebrafish locomotor activity as a sensitive effect-based tool for the assessment of environmental chemicals and mixtures vorgelegt von David Leuthold
title_short	Zebrafish locomotor activity as a sensitive effect-based tool for the assessment of environmental chemicals and mixtures
title_sort	zebrafish locomotor activity as a sensitive effect based tool for the assessment of environmental chemicals and mixtures
topic	Zebrabärbling (DE-588)4079468-4 gnd Neurotoxizität (DE-588)4123836-9 gnd Verhalten (DE-588)4062860-7 gnd Umweltchemikalie (DE-588)4117281-4 gnd
topic_facet	Zebrabärbling Neurotoxizität Verhalten Umweltchemikalie Hochschulschrift
url	https://d-nb.info/1223879879/04 http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=032783450&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA
volume_link	(DE-604)BV022864787
work_keys_str_mv	AT leutholddavid zebrafishlocomotoractivityasasensitiveeffectbasedtoolfortheassessmentofenvironmentalchemicalsandmixtures

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