Verfügbarkeit: Dynamic cortical representation of sounds in autism-related and auditory processing-impaired mouse models

Dynamic cortical representation of sounds in autism-related and auditory processing-impaired mouse models:

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Bibliographische Detailangaben
1. Verfasser:	Wadle, Simon Lothar 1991- (VerfasserIn)
Format:	Abschlussarbeit Buch
Sprache:	English
Veröffentlicht:	Kaiserslautern 2023
Schlagworte:	Hochschulschrift
Online-Zugang:	Inhaltsverzeichnis Inhaltsverzeichnis
Beschreibung:	Literature: Seite 110-125
Beschreibung:	VIII, 133 Seiten Illustrationen, Diagramme 21 cm

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Datensatz im Suchindex

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adam_text	INDEX OF CONTENTS INDEX OF CONTENTS ........................................................................................................................................... I INDEX OF FIGURES ............................................................................................................................................. V INDEX OF TABLES ............................................................................................................................................. VII SUMMARY .................................................................................................................................................... VIII 1. INTRODUCTION .............................................................................................................................................. 1 1.1. FUNCTIONAL ORGANIZATION OF THE AC .................................................................................................... 1 1.1.1. PT RECEPTIVE FIELDS ...................................................................................................................... 1 1.1.2. TONOTOPY AND SUBFIELDS IN THE AC ............................................................................................. 2 1.1.3. FUNCTIONAL NETWORKS IN THE AC .................................................................................................. 3 1.2. FUNCTION OF THE CACNA2D3 GENE AND IMPLICATIONS OF ITS LOSS.......................................................... 5 1.2.1. MOLECULAR FUNCTIONS OF A263 ..................................................................................................... 5 1.2.2. NEURONAL IMPAIRMENTS UPON FUNCTIONAL LOSS OF A263 ................................................................ 5 1.3. FUNCTION OF THE FMR1 GENE AND ITS ROLE IN ASD .............................................................................. 8 1.3.1. FMR1 AND ITS ROLE IN ASD ........................................................................................................... 8 1.3.2. MOLECULAR AND FUNCTIONAL ALTERATIONS IN FMR1 KO MICE ...................................................... 8 1.3.3. AUDITORY PROCESSING DEFICITS IN ASD AND FMR1 KO MICE ...................................................... 10 1.4. AIMS OF THE STUDY ............................................................................................................................ 11 2. MATERIALS AND METHODS .......................................................................................................................... 12 2.1. ANIMALS ............................................................................................................................................. 12 2.1.1. FMR1 KO MICE .......................................................................................................................... 12 2.1.2. A 2 63 KO MICE ............................................................................................................................ 12 2.2. GENOTYPING OF KO MICE ................................................................................................................... 13 2.2.1. DNA ISOLATION ........................................................................................................................... 13 2.2.2. PCR PROTOCOLS ........................................................................................................................... 13 2.3. SOLUTIONS ........................................................................................................................................... 16 2.3.1. PREPARATION SOLUTION FOR IN VITRO EXPERIMENTS ....................................................................... 16 2.3.2. ARTIFICIAL CEREBROSPINAL FLUID FOR IN VITRO EXPERIMENTS ........................................................... 17 2.3.3. INTERNAL SOLUTION ....................................................................................................................... 17 2.3.4. FORMULATION BUFFER ................................................................................................................... 18 2.3.5. CORTEX BUFFER ............................................................................................................................ 18 2.4. VIRAL INJECTIONS ................................................................................................................................ 19 2.4.1. VIRAL VECTORS ............................................................................................................................. 19 2.4.2. INJECTION PROCEDURE .................................................................................................................. 19 2.5. HABITUATION PROCEDURE .................................................................................................................... 21 2.6. CRANIAL WINDOW IMPLANTATION ......................................................................................................... 21 2.7. ACOUSTIC STIMULATION AND AMBIENT NOISE ATTENUATION ................................................................... 22 2.8. IN VIVO CA 2+ IMAGING ......................................................................................................................... 25 2.8.1. TWO-PHOTON IMAGING ................................................................................................................ 26 2.8.2. WF IMAGING .............................................................................................................................. 27 2.9. HISTOLOGY .......................................................................................................................................... 28 2.10. PREPARATION OF ACUTE AC SLICES .................................................................................................... 29 2.11. ELECTROPHYSIOLOGICAL RECORDINGS AND IN VITRO CA2T IMAGING ........................................................... 29 2.11.1. SINGLE-CELL CA 2+ IMAGING ......................................................................................................... 30 2.11.2. SLICE CA 2+ IMAGING ................................................................................................................... 30 2.12. DATA ANALYSIS ................................................................................................................................. 31 2.12.1. WF IN VIVO CA 2+ IMAGING ANALYSIS ........................................................................................... 31 2.12.2. TWO-PHOTON IN VIVO CA 2+ ACTIVITY EXTRACTION ......................................................................... 32 2.12.3. TWO-PHOTON PT ANALYSIS ........................................................................................................ 35 2.12.4. COMPLEX SOUND ANALYSIS ........................................................................................................ 36 2.12.5. IN VITRO CA 2+ IMAGING ANALYSIS ................................................................................................ 37 2.12.6. DATA VISUALIZATION AND STATISTICS ............................................................................................ 38 3. RESULTS ..................................................................................................................................................... 39 3.1. RESPONSE PROPERTIES OF AC NEURONS IN A 2 63 KO UPON PT STIMULATION ......................................... 39 3.1.1. SUBFIELD PARCELLATION OF AC IN A 2 63 KO ................................................................................. 39 II 3.1.2. NEURONS IN 0263 KO ARE SENSITIVE TO PTS ................................................................................ 40 3.1.3. SIMILAR TUNING PROPERTIES IN NEURONS OF A 2 63 KO ................................................................... 43 3.1.4. SINGLE-PEAK NEURONS ARE OVERREPRESENTED IN AAF AND A2 OF A263 KO ................................. 45 3.1.5. AAF AND A2 OF A263 KO EXHIBIT A SHIFT TOWARDS MID FREQUENCIES IN BF DISTRIBUTIONS ........ 48 3.I.6. INVERSE LINEAR TONOTOPIC GRADIENT ON SINGLE-CELL LEVEL IN AAF AND A2 OF A263 KO ............... 49 3.I.7. REDUCED LOCAL BF HETEROGENEITY IN A263 KO .......................................................................... 51 3.2. RESPONSE PROPERTIES OF AC NEURONS IN A263 KO UPON COMPLEX SOUND STIMULATION ................... 52 3.2.1. PCA COULD NOT DETECT DIFFERENCES IN AC BETWEEN A 2 63 KO AND WT IN PROCESSING OF AM TONES 52 3.2.2. SMALL CHANGES OF NEURONAL CELL CLUSTER PROPERTIES IN A 2 63 KO .............................................. 55 3.2.3. CELL CLUSTERS IN 0263 KO DISPLAY HIGHER NOISE CORRELATION IN AAF AND A2 BUT REDUCED RELIABILITY IN A2 .................................................................................................................................. 58 3.3. CA 2+ INFLUX CONTROL EXPERIMENTS .................................................................................................... 60 3.3.I. NO DIFFERENCE IN SINGLE AP TRIGGERED CA 2+ FLUORESCENCE IN A 2 63 KO ..................................... 60 3.3.2. HIGHER POPULATION CA 2+ ACTIVITY AT LOW INTENSITY STIMULATIONS IN 01263 KO ........................... 61 3.4. SUMMARY OF NEURONAL RESPONSE PATTERNS IN A 2 63 KO ................................................................... 63 3.5. RESPONSE PROPERTIES OF AC NEURONS IN FMR1 KO UPON PT STIMULATION ....................................... 64 3.5.I. SUBFIELD PARCELLATION OF AC IN FMR1 KO .................................................................................64 3.5.2. SMALL REDUCTION IN PT-RESPONSIVENESS AND SINGLE-PEAK NEURON ABUNDANCE IN FMR1 KO... 64 3.5.3. REDUCED TUNING BW IN SINGLE-PEAK NEURONS IN AL AND AAF OF FMR1 KO ........................... 67 3.5.4. LESS NEURONS IN A2 OF FMR1 KO ARE TUNED TO HIGH FREQUENCIES .......................................... 69 3.5.5. LINEAR TONOTOPIC GRADIENT ON SINGLE-CELL LEVEL ONLY FOUND IN AL OF HIGHLY-TUNED NEURONS IN WT AND FMR1 KO ............................................................................................................................... 72 3.5.6. SUBFIELD-SPECIFIC ALTERATIONS OF LOCAL BF HETEROGENEITY IN AC OF FMR1 KO ......................... 74 3.6. RESPONSE PROPERTIES OF AC NEURONS IN FMR1 KO UPON COMPLEX SOUND STIMULATION ................. 76 3.6.I. PCA COULD NOT DETECT DIFFERENCES IN AC BETWEEN FMR1 KO AND WT IN PROCESSING OF AM TONES 76 3.6.2. CELL CLUSTER ANALYSIS REVEALS SMALL DIFFERENCES IN FMR1 KO IN COMPLEX SOUND PROCESSING. 79 4. DISCUSSION...............................................................................................................................................84 III 4.1. ALTERATIONS IN NEURONAL ACTIVITY UPON PT STIMULATION IN A263 KO MICE ...................................... 85 4.1.1. ALTERATIONS OF PT PROCESSING IN A 2 63 KO ................................................................................ 85 4.1.2. DIFFERENCES IN TONOTOPIC ORGANIZATION OF A 2 63 KO................................................................. 88 4.2. PROCESSING DEFICITS IN A 2 63 KO MICE UPON COMPLEX SOUND STIMULATION ......................................90 4.2.1. PCA ANALYSIS REVEALS NO ALTERATIONS IN AM TONE PROCESSING ................................................. 91 4.2.2. ALTERED RESPONSE PROPERTIES TO ANIMAL VOCALIZATIONS IN A 2 63 KO ........................................ 92 4.3. RESPONSE PROPERTIES OF FMR1 KO MICE UPON PT STIMULATION ...................................................... 97 4.3.1. CHANGES IN PT PROCESSING IN FMR1 KO ................................................................................... 97 4.3.2. ALTERED TONOTOPIC ORGANIZATION IN THE AC OF FMR1 KO MICE ................................................ 98 4.4. RESPONSE PROPERTIES OF NEURONS IN FMR1 KO MICE UPON COMPLEX SOUND STIMULATION ............ 100 4.4.1. SUBFIELD-SPECIFIC CHANGES IN CLUSTER PROPERTIES UPON STIMULATION WITH ANIMAL VOCALIZATIONS 101 4.5. COMPARISON OF PROCESSING DEFICITS IN A 2 63 KO AND FMR1 KO .................................................... 103 4.6. TECHNICAL AND ANALYTICAL CONSIDERATIONS ...................................................................................... 105 4.7. OUTLOOK .......................................................................................................................................... 107 4.8. CONCLUDING REMARKS ...................................................................................................................... 109 5. LITERATURE .............................................................................................................................................. 110 6. APPENDIX ............................................................................................................................................... 126 7. INDEX OF ABBREVIATIONS ......................................................................................................................... 129 8. CURRICULUM VITAE ................................................................................................................................... 131 9. ACKNOWLEDGEMENT ............................................................................................................................... 133 IV
adam_txt	INDEX OF CONTENTS INDEX OF CONTENTS . I INDEX OF FIGURES . V INDEX OF TABLES . VII SUMMARY . VIII 1. INTRODUCTION . 1 1.1. FUNCTIONAL ORGANIZATION OF THE AC . 1 1.1.1. PT RECEPTIVE FIELDS . 1 1.1.2. TONOTOPY AND SUBFIELDS IN THE AC . 2 1.1.3. FUNCTIONAL NETWORKS IN THE AC . 3 1.2. FUNCTION OF THE CACNA2D3 GENE AND IMPLICATIONS OF ITS LOSS. 5 1.2.1. MOLECULAR FUNCTIONS OF A263 . 5 1.2.2. NEURONAL IMPAIRMENTS UPON FUNCTIONAL LOSS OF A263 . 5 1.3. FUNCTION OF THE FMR1 GENE AND ITS ROLE IN ASD . 8 1.3.1. FMR1 AND ITS ROLE IN ASD . 8 1.3.2. MOLECULAR AND FUNCTIONAL ALTERATIONS IN FMR1 KO MICE . 8 1.3.3. AUDITORY PROCESSING DEFICITS IN ASD AND FMR1 KO MICE . 10 1.4. AIMS OF THE STUDY . 11 2. MATERIALS AND METHODS . 12 2.1. ANIMALS . 12 2.1.1. FMR1 KO MICE . 12 2.1.2. A 2 63 KO MICE . 12 2.2. GENOTYPING OF KO MICE . 13 2.2.1. DNA ISOLATION . 13 2.2.2. PCR PROTOCOLS . 13 2.3. SOLUTIONS . 16 2.3.1. PREPARATION SOLUTION FOR IN VITRO EXPERIMENTS . 16 2.3.2. ARTIFICIAL CEREBROSPINAL FLUID FOR IN VITRO EXPERIMENTS . 17 2.3.3. INTERNAL SOLUTION . 17 2.3.4. FORMULATION BUFFER . 18 2.3.5. CORTEX BUFFER . 18 2.4. VIRAL INJECTIONS . 19 2.4.1. VIRAL VECTORS . 19 2.4.2. INJECTION PROCEDURE . 19 2.5. HABITUATION PROCEDURE . 21 2.6. CRANIAL WINDOW IMPLANTATION . 21 2.7. ACOUSTIC STIMULATION AND AMBIENT NOISE ATTENUATION . 22 2.8. IN VIVO CA 2+ IMAGING . 25 2.8.1. TWO-PHOTON IMAGING . 26 2.8.2. WF IMAGING . 27 2.9. HISTOLOGY . 28 2.10. PREPARATION OF ACUTE AC SLICES . 29 2.11. ELECTROPHYSIOLOGICAL RECORDINGS AND IN VITRO CA2T IMAGING . 29 2.11.1. SINGLE-CELL CA 2+ IMAGING . 30 2.11.2. SLICE CA 2+ IMAGING . 30 2.12. DATA ANALYSIS . 31 2.12.1. WF IN VIVO CA 2+ IMAGING ANALYSIS . 31 2.12.2. TWO-PHOTON IN VIVO CA 2+ ACTIVITY EXTRACTION . 32 2.12.3. TWO-PHOTON PT ANALYSIS . 35 2.12.4. COMPLEX SOUND ANALYSIS . 36 2.12.5. IN VITRO CA 2+ IMAGING ANALYSIS . 37 2.12.6. DATA VISUALIZATION AND STATISTICS . 38 3. RESULTS . 39 3.1. RESPONSE PROPERTIES OF AC NEURONS IN A 2 63 KO UPON PT STIMULATION . 39 3.1.1. SUBFIELD PARCELLATION OF AC IN A 2 63 KO . 39 II 3.1.2. NEURONS IN 0263 KO ARE SENSITIVE TO PTS . 40 3.1.3. SIMILAR TUNING PROPERTIES IN NEURONS OF A 2 63 KO . 43 3.1.4. SINGLE-PEAK NEURONS ARE OVERREPRESENTED IN AAF AND A2 OF A263 KO . 45 3.1.5. AAF AND A2 OF A263 KO EXHIBIT A SHIFT TOWARDS MID FREQUENCIES IN BF DISTRIBUTIONS . 48 3.I.6. INVERSE LINEAR TONOTOPIC GRADIENT ON SINGLE-CELL LEVEL IN AAF AND A2 OF A263 KO . 49 3.I.7. REDUCED LOCAL BF HETEROGENEITY IN A263 KO . 51 3.2. RESPONSE PROPERTIES OF AC NEURONS IN A263 KO UPON COMPLEX SOUND STIMULATION . 52 3.2.1. PCA COULD NOT DETECT DIFFERENCES IN AC BETWEEN A 2 63 KO AND WT IN PROCESSING OF AM TONES 52 3.2.2. SMALL CHANGES OF NEURONAL CELL CLUSTER PROPERTIES IN A 2 63 KO . 55 3.2.3. CELL CLUSTERS IN 0263 KO DISPLAY HIGHER NOISE CORRELATION IN AAF AND A2 BUT REDUCED RELIABILITY IN A2 . 58 3.3. CA 2+ INFLUX CONTROL EXPERIMENTS . 60 3.3.I. NO DIFFERENCE IN SINGLE AP TRIGGERED CA 2+ FLUORESCENCE IN A 2 63 KO . 60 3.3.2. HIGHER POPULATION CA 2+ ACTIVITY AT LOW INTENSITY STIMULATIONS IN 01263 KO . 61 3.4. SUMMARY OF NEURONAL RESPONSE PATTERNS IN A 2 63 KO . 63 3.5. RESPONSE PROPERTIES OF AC NEURONS IN FMR1 KO UPON PT STIMULATION . 64 3.5.I. SUBFIELD PARCELLATION OF AC IN FMR1 KO .64 3.5.2. SMALL REDUCTION IN PT-RESPONSIVENESS AND SINGLE-PEAK NEURON ABUNDANCE IN FMR1 KO. 64 3.5.3. REDUCED TUNING BW IN SINGLE-PEAK NEURONS IN AL AND AAF OF FMR1 KO . 67 3.5.4. LESS NEURONS IN A2 OF FMR1 KO ARE TUNED TO HIGH FREQUENCIES . 69 3.5.5. LINEAR TONOTOPIC GRADIENT ON SINGLE-CELL LEVEL ONLY FOUND IN AL OF HIGHLY-TUNED NEURONS IN WT AND FMR1 KO . 72 3.5.6. SUBFIELD-SPECIFIC ALTERATIONS OF LOCAL BF HETEROGENEITY IN AC OF FMR1 KO . 74 3.6. RESPONSE PROPERTIES OF AC NEURONS IN FMR1 KO UPON COMPLEX SOUND STIMULATION . 76 3.6.I. PCA COULD NOT DETECT DIFFERENCES IN AC BETWEEN FMR1 KO AND WT IN PROCESSING OF AM TONES 76 3.6.2. CELL CLUSTER ANALYSIS REVEALS SMALL DIFFERENCES IN FMR1 KO IN COMPLEX SOUND PROCESSING. 79 4. DISCUSSION.84 III 4.1. ALTERATIONS IN NEURONAL ACTIVITY UPON PT STIMULATION IN A263 KO MICE . 85 4.1.1. ALTERATIONS OF PT PROCESSING IN A 2 63 KO . 85 4.1.2. DIFFERENCES IN TONOTOPIC ORGANIZATION OF A 2 63 KO. 88 4.2. PROCESSING DEFICITS IN A 2 63 KO MICE UPON COMPLEX SOUND STIMULATION .90 4.2.1. PCA ANALYSIS REVEALS NO ALTERATIONS IN AM TONE PROCESSING . 91 4.2.2. ALTERED RESPONSE PROPERTIES TO ANIMAL VOCALIZATIONS IN A 2 63 KO . 92 4.3. RESPONSE PROPERTIES OF FMR1 KO MICE UPON PT STIMULATION . 97 4.3.1. CHANGES IN PT PROCESSING IN FMR1 KO . 97 4.3.2. ALTERED TONOTOPIC ORGANIZATION IN THE AC OF FMR1 KO MICE . 98 4.4. RESPONSE PROPERTIES OF NEURONS IN FMR1 KO MICE UPON COMPLEX SOUND STIMULATION . 100 4.4.1. SUBFIELD-SPECIFIC CHANGES IN CLUSTER PROPERTIES UPON STIMULATION WITH ANIMAL VOCALIZATIONS 101 4.5. COMPARISON OF PROCESSING DEFICITS IN A 2 63 KO AND FMR1 KO . 103 4.6. TECHNICAL AND ANALYTICAL CONSIDERATIONS . 105 4.7. OUTLOOK . 107 4.8. CONCLUDING REMARKS . 109 5. LITERATURE . 110 6. APPENDIX . 126 7. INDEX OF ABBREVIATIONS . 129 8. CURRICULUM VITAE . 131 9. ACKNOWLEDGEMENT . 133 IV
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spelling	Wadle, Simon Lothar 1991- Verfasser (DE-588)1297755138 aut Dynamic cortical representation of sounds in autism-related and auditory processing-impaired mouse models vorgelegt von Simon Lothar Wadle, M. Sc. Kaiserslautern 2023 VIII, 133 Seiten Illustrationen, Diagramme 21 cm txt rdacontent n rdamedia nc rdacarrier Literature: Seite 110-125 Dissertation Rheinland-Pfälzische Technische Universität Kaiserslautern-Landau 2023 (DE-588)4113937-9 Hochschulschrift gnd-content B:DE-101 application/pdf https://d-nb.info/1315351641/04 Inhaltsverzeichnis DNB Datenaustausch application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=034928066&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis 1\p emakn 0,47254 20240116 DE-101 https://d-nb.info/provenance/plan#emakn 2\p dnb 20240123 DE-101 https://d-nb.info/provenance/plan#dnb 3\p dnb 20240123 DE-101 https://d-nb.info/provenance/plan#dnb
spellingShingle	Wadle, Simon Lothar 1991- Dynamic cortical representation of sounds in autism-related and auditory processing-impaired mouse models
subject_GND	(DE-588)4113937-9
title	Dynamic cortical representation of sounds in autism-related and auditory processing-impaired mouse models
title_auth	Dynamic cortical representation of sounds in autism-related and auditory processing-impaired mouse models
title_exact_search	Dynamic cortical representation of sounds in autism-related and auditory processing-impaired mouse models
title_exact_search_txtP	Dynamic cortical representation of sounds in autism-related and auditory processing-impaired mouse models
title_full	Dynamic cortical representation of sounds in autism-related and auditory processing-impaired mouse models vorgelegt von Simon Lothar Wadle, M. Sc.
title_fullStr	Dynamic cortical representation of sounds in autism-related and auditory processing-impaired mouse models vorgelegt von Simon Lothar Wadle, M. Sc.
title_full_unstemmed	Dynamic cortical representation of sounds in autism-related and auditory processing-impaired mouse models vorgelegt von Simon Lothar Wadle, M. Sc.
title_short	Dynamic cortical representation of sounds in autism-related and auditory processing-impaired mouse models
title_sort	dynamic cortical representation of sounds in autism related and auditory processing impaired mouse models
topic_facet	Hochschulschrift
url	https://d-nb.info/1315351641/04 http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=034928066&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA
work_keys_str_mv	AT wadlesimonlothar dynamiccorticalrepresentationofsoundsinautismrelatedandauditoryprocessingimpairedmousemodels

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