Ignite Creation Date:
2024-06-16 @ 11:48 AM
Last Modification Date:
2024-10-26 @ 3:30 PM
Study NCT ID:
NCT06423508
Status:
NOT_YET_RECRUITING
Last Update Posted:
2024-07-05
First Post:
2024-05-15
Brief Title:
PRObing The Efficacy of Commercial Stage Storage Buffers and Evaluating Gut Metaproteome Variability Between Individuals
Sponsor:
University of Vienna
Organization:
University of Vienna
Study Overview
Official Title:
PRObing The Efficacy of Commercial Stage Storage Buffers and Evaluating Gut Metaproteome Variability Between Individuals
Status:
NOT_YET_RECRUITING
Status Verified Date:
2024-07
Last Known Status:
None
Delayed Posting:
No
If Stopped, Why?:
Not Stopped
Has Expanded Access:
False
If Expanded Access, NCT#:
N/A
Has Expanded Access, NCT# Status:
N/A
Acronym:
PROTEGI
Brief Summary:
The study aims to assess the effectiveness of various commercial and non-hazardous buffers for the storage of human gut fecal samples over time This evaluation will be conducted by comparing the performance of these buffers against directly frozen samples using metaproteomic analysis The study is motivated by the need for standardized protocols for sample preservation in metaproteomic research particularly focusing on protein preservation in fecal samples By investigating proteomic taxonomic and functional identifications the research seeks to provide insights into the reliability of these buffers as storage solutions Additionally the study plans to explore inter- and intra-individual variabilities at the proteome level by periodically collecting fecal samples from volunteers complementing existing knowledge in metaproteomics Overall the study addresses a critical gap in the field and has the potential to enhance reproducibility and comparability across metaproteomic studies
Detailed Description:
A Introduction
Metaproteomics studies the entire protein complement of a microbial community and offers insight into intricate ecosystems like the gut microbiome Metaproteomics allows researchers to delve deep into gut microbiomes providing insights into these microbial inhabitants abundance and functional activities This knowledge has been instrumental in elucidating the mechanisms underlying various diseases such as inflammatory bowel disease and obesity Researchers can develop targeted strategies for personalized medicine and precision healthcare based on the underlying biology by identifying key protein signatures
In gut microbiome studies standardized sample collection and preservation are particularly crucial to preserve the integrity of the microbial community and its proteome Indeed to obtain reliable results it must be considered the susceptibility to environmental influences like temperature and oxygen amount For gut microbiome metaproteomic studies non-invasive or minimally invasive methods are preferred to minimize disruption or contamination and preserve the native microbial composition and protein profiles Also the sample handling and storage strategies affect the degradation of proteins and the microbial population stability For this reason immediate freezing or preservation at low temperatures eg -80C is often recommended to maintain sample integrity until analysis However using a cold chain for storage and transportation is not compatible with an on-site sampling strategy that is necessary for large-scale and delocalized studies Moreover it is less ideal more expensive and logistically tedious than potential room temperature options
Furthermore present knowledge of the fecal sample collectionpreservation methods is based on preserving nucleic acids or metabolites during the transportation to the laboratory for analysis However protein preservation requires different strategies and studies are scarce and rely on adopting the devices or reagents used in the case of nucleic acids or metabolites analysis Thus tailored and standardized protocols together with metadata collection are essential for ensuring reproducibility and comparability across metaproteomic studies
The present study aims to evaluate the fitness of several commercial and non-hazardous buffers for the storage of human gut fecal samples over time Fecal samples will be stored in five different buffers and will be benchmarked with directly frozen samples Using metaproteomics the investigators will compare the proteomic taxonomic and functional identifications to understand the potential of these buffers as a reliable storage solution for human feces This research is unique and to the best of our knowledge no similar study has addressed this demanding question
Preliminary evidence in humans has shown inter- and intra-individual variability of the proteomes of the host and microbiomes In particular the intra-individual taxonomic and functional variation in the gut microbiome seems to be lower than inter-individual variation over time However metatranscriptomics profiles exhibited comparable variability within and between subjects Therefore using metaproteomics investigators aim to assess the inter- and intra-individual variabilities at the proteome level by studying fecal samples periodically collected from participants
B The academic and social relevance
The first part of the study aims to define the most effective storage buffer for preserving protein integrity during sample transportation from the site of collection to the site of processing - a key factor in the future of metaproteomics applied to health and disease Despite its importance a similar evaluation has not been performed for proteomic applications This knowledge will be critical for academic purposes to be used for large-scale human fecal proteomic studies For people to have their gut health examined through metaproteomics and unlock the potential of microbial communities-based personalized medicine and therapeutic interventions there will be a requirement for consistent sample collection and this study will provide it
The second part of the study is designed to understand the variability that can be observed in the gut microbiome composition and functions from the proteomics perspective The gut microbiome is dynamic and is known to be altered by multiple factors such as diet age genetics environment etc These variations can be broadly classified into inter- and intra-individual Inter-individual variability refers to the differences observed between individuals within a population or group and they can encompass a wide range of characteristics including genetic makeup physiological parameters lifestyle factors and environmental exposures Understanding inter-individual variability from people of the same community is essential in fields such as personalized medicine where tailored interventions account for individual differences to optimize treatment outcomes Intra-individual variability on the other hand refers to variations observed within the same individual over time or under different conditions and can arise from biological fluctuations such as circadian rhythms hormonal fluctuations or physiological responses to stimuli Recognizing and characterizing intra-individual variability is crucial for accurately interpreting research findings and assessing the reliability of biological measurements particularly in longitudinal studies or clinical monitoring scenarios This study aims to understand these variabilities through the proteomics data collected from participants fecal samples and define the variables detected in the gut microbiome
C Objectives
1 To identify the effect of five different buffers used for the storage and transportation of collected human fecal material by metaproteomic profiles
2 To determine the variability in microbiota and host proteomes at the inter- and intra-individual levels
D Study Design
For the first phase the investigators will deploy the following protocol for on-site fecal sampling and transport preservation The participants recruited among the members of our laboratoryDivision will be provided with 18 tubes numbered 1-18 15 ml conical centrifuge tubes Ref 339650 Thermo Scientific and 18 easy-to-use commercial swabs C1052-50 Zymo Research or spatulas DNAGenotek The 18 tubes correspond to three storage time points of 6 different experimental conditions an empty tube without preservation liquid as a control sample and 5 different non-hazardous fecal preservation liquids a In-house buffer called LB with SDS and Urea commercially obtained b Zymo DNARNA Shield R1100 Zymo Research c Copan Amies buffer 480CE Copan Italia SpA d OMNIgeneGUT OM200 DNAGenotek e OMNImetGUT ME200 DNAGenotek Briefly LB Zymo Shield and OM200 are known to contain detergents that help to preserve the biomolecules Copan Amies buffer is a nutrient-free media known to keep the cells viable and shown to have applications in culturomics and ME200 is solvent based useful in metabolomic applications In addition the participants will receive a commercial stool catcher that is displayed over the toilet for facilitating fecal sampling Servoprax Stuhlfaenger Reference number H7 61000-50 from wwwmedundorgde and a little box with ice packs in which the three Control samples will be stored and transported to the lab These ice-stored Control samples are key to evaluating the performance of the different storage buffers The participants will bring the samples to our laboratory in the following 24 hours Upon reception in the lab the Control samples will be stored at -80C until further biochemical processing using established protocols The rest of the samples will be stored at 20C inside an orbital shaker incubator for a total of 2 5 and 10 days simulating different storagetransport times thereof At the end of these time points the samples will be stored at -80C until further biochemical processing using established protocols The metaproteomic profiles indicating the taxonomical and functional changes in the gut microbiome and the host physiology as in the previous experiment from these samples will inform us about the best preservation liquid defined as the one where the microbiome composition and function are more like the Control sample This experiment is necessary for initiating Phase II of the study and it is novel in the field as no guidelines are established for best in-house fecal sampling practices in metaproteomics Six healthy participants among the members of the Systems Biology of Pain laboratory Division of Pharmacology amp Toxicology Department of Pharmaceutical Sciences will be recruited This is a randomized study with no participant groups Samples will be collected once and distributed to 18 tubes representing different conditions A sample size of 6 subjects will be enough to find the best preservation solution and the sampling will be performed one time under normal bowel movement by the participants In addition the participants will fill out a questionnaire attached that includes information like age sex Body Mass Index the gastrointestinal symptoms rating scale GSRS administration of antibiotics in the last 30 days before sample collection the Bristol stool form scale BSFS and the approximate time needed for sample collection in the 18 tubes to account for potential effects due to oxidation processes
For the second phase the participants will be expected to collect fecal samples for 4 weeks during their regular defecation ten different times maximum They will be provided with an adequate number of 15ml conical centrifuge tubes 339650 Thermo Scientific containing the best-performing preservation buffer as defined in the first phase of the study see above and a commercial collection device with a stool catcher Upon reception in the lab the samples will be stored at -80C until further biochemical processing using established protocols In addition the participants will fill out a questionnaire see above Participants will take part voluntarily in the experiment after receiving an explanation of all the risks and benefits of participating in the present study and after signing the written informed consent form according to the Declaration of Helsinki see the consent form attached The participants will be instructed and provided with necessary sampling devices to collect stool samples see above and submit the samples to the Department of Pharmacology and Toxicology at the earliest opportunity Participants will be expected to complete self-administered questionnaires that include information like the one described above For the second phase 46 healthy participants among the members of our laboratoryDivision will be recruited from both sexes 23 males and females considering a possible dropout rate of 20 This is a randomized study with no participant groups The sample size was calculated based on the threshold of Eggerthella estimates with time The statistics procedure used is F tests - two-way ANOVA with repeated measures with the following values Cohensd 075 1-β 080 and α 005 A total of 400 - 460 samples are expected to be collected
Metaproteomics studies the entire protein complement of a microbial community and offers insight into intricate ecosystems like the gut microbiome Metaproteomics allows researchers to delve deep into gut microbiomes providing insights into these microbial inhabitants abundance and functional activities This knowledge has been instrumental in elucidating the mechanisms underlying various diseases such as inflammatory bowel disease and obesity Researchers can develop targeted strategies for personalized medicine and precision healthcare based on the underlying biology by identifying key protein signatures
In gut microbiome studies standardized sample collection and preservation are particularly crucial to preserve the integrity of the microbial community and its proteome Indeed to obtain reliable results it must be considered the susceptibility to environmental influences like temperature and oxygen amount For gut microbiome metaproteomic studies non-invasive or minimally invasive methods are preferred to minimize disruption or contamination and preserve the native microbial composition and protein profiles Also the sample handling and storage strategies affect the degradation of proteins and the microbial population stability For this reason immediate freezing or preservation at low temperatures eg -80C is often recommended to maintain sample integrity until analysis However using a cold chain for storage and transportation is not compatible with an on-site sampling strategy that is necessary for large-scale and delocalized studies Moreover it is less ideal more expensive and logistically tedious than potential room temperature options
Furthermore present knowledge of the fecal sample collectionpreservation methods is based on preserving nucleic acids or metabolites during the transportation to the laboratory for analysis However protein preservation requires different strategies and studies are scarce and rely on adopting the devices or reagents used in the case of nucleic acids or metabolites analysis Thus tailored and standardized protocols together with metadata collection are essential for ensuring reproducibility and comparability across metaproteomic studies
The present study aims to evaluate the fitness of several commercial and non-hazardous buffers for the storage of human gut fecal samples over time Fecal samples will be stored in five different buffers and will be benchmarked with directly frozen samples Using metaproteomics the investigators will compare the proteomic taxonomic and functional identifications to understand the potential of these buffers as a reliable storage solution for human feces This research is unique and to the best of our knowledge no similar study has addressed this demanding question
Preliminary evidence in humans has shown inter- and intra-individual variability of the proteomes of the host and microbiomes In particular the intra-individual taxonomic and functional variation in the gut microbiome seems to be lower than inter-individual variation over time However metatranscriptomics profiles exhibited comparable variability within and between subjects Therefore using metaproteomics investigators aim to assess the inter- and intra-individual variabilities at the proteome level by studying fecal samples periodically collected from participants
B The academic and social relevance
The first part of the study aims to define the most effective storage buffer for preserving protein integrity during sample transportation from the site of collection to the site of processing - a key factor in the future of metaproteomics applied to health and disease Despite its importance a similar evaluation has not been performed for proteomic applications This knowledge will be critical for academic purposes to be used for large-scale human fecal proteomic studies For people to have their gut health examined through metaproteomics and unlock the potential of microbial communities-based personalized medicine and therapeutic interventions there will be a requirement for consistent sample collection and this study will provide it
The second part of the study is designed to understand the variability that can be observed in the gut microbiome composition and functions from the proteomics perspective The gut microbiome is dynamic and is known to be altered by multiple factors such as diet age genetics environment etc These variations can be broadly classified into inter- and intra-individual Inter-individual variability refers to the differences observed between individuals within a population or group and they can encompass a wide range of characteristics including genetic makeup physiological parameters lifestyle factors and environmental exposures Understanding inter-individual variability from people of the same community is essential in fields such as personalized medicine where tailored interventions account for individual differences to optimize treatment outcomes Intra-individual variability on the other hand refers to variations observed within the same individual over time or under different conditions and can arise from biological fluctuations such as circadian rhythms hormonal fluctuations or physiological responses to stimuli Recognizing and characterizing intra-individual variability is crucial for accurately interpreting research findings and assessing the reliability of biological measurements particularly in longitudinal studies or clinical monitoring scenarios This study aims to understand these variabilities through the proteomics data collected from participants fecal samples and define the variables detected in the gut microbiome
C Objectives
1 To identify the effect of five different buffers used for the storage and transportation of collected human fecal material by metaproteomic profiles
2 To determine the variability in microbiota and host proteomes at the inter- and intra-individual levels
D Study Design
For the first phase the investigators will deploy the following protocol for on-site fecal sampling and transport preservation The participants recruited among the members of our laboratoryDivision will be provided with 18 tubes numbered 1-18 15 ml conical centrifuge tubes Ref 339650 Thermo Scientific and 18 easy-to-use commercial swabs C1052-50 Zymo Research or spatulas DNAGenotek The 18 tubes correspond to three storage time points of 6 different experimental conditions an empty tube without preservation liquid as a control sample and 5 different non-hazardous fecal preservation liquids a In-house buffer called LB with SDS and Urea commercially obtained b Zymo DNARNA Shield R1100 Zymo Research c Copan Amies buffer 480CE Copan Italia SpA d OMNIgeneGUT OM200 DNAGenotek e OMNImetGUT ME200 DNAGenotek Briefly LB Zymo Shield and OM200 are known to contain detergents that help to preserve the biomolecules Copan Amies buffer is a nutrient-free media known to keep the cells viable and shown to have applications in culturomics and ME200 is solvent based useful in metabolomic applications In addition the participants will receive a commercial stool catcher that is displayed over the toilet for facilitating fecal sampling Servoprax Stuhlfaenger Reference number H7 61000-50 from wwwmedundorgde and a little box with ice packs in which the three Control samples will be stored and transported to the lab These ice-stored Control samples are key to evaluating the performance of the different storage buffers The participants will bring the samples to our laboratory in the following 24 hours Upon reception in the lab the Control samples will be stored at -80C until further biochemical processing using established protocols The rest of the samples will be stored at 20C inside an orbital shaker incubator for a total of 2 5 and 10 days simulating different storagetransport times thereof At the end of these time points the samples will be stored at -80C until further biochemical processing using established protocols The metaproteomic profiles indicating the taxonomical and functional changes in the gut microbiome and the host physiology as in the previous experiment from these samples will inform us about the best preservation liquid defined as the one where the microbiome composition and function are more like the Control sample This experiment is necessary for initiating Phase II of the study and it is novel in the field as no guidelines are established for best in-house fecal sampling practices in metaproteomics Six healthy participants among the members of the Systems Biology of Pain laboratory Division of Pharmacology amp Toxicology Department of Pharmaceutical Sciences will be recruited This is a randomized study with no participant groups Samples will be collected once and distributed to 18 tubes representing different conditions A sample size of 6 subjects will be enough to find the best preservation solution and the sampling will be performed one time under normal bowel movement by the participants In addition the participants will fill out a questionnaire attached that includes information like age sex Body Mass Index the gastrointestinal symptoms rating scale GSRS administration of antibiotics in the last 30 days before sample collection the Bristol stool form scale BSFS and the approximate time needed for sample collection in the 18 tubes to account for potential effects due to oxidation processes
For the second phase the participants will be expected to collect fecal samples for 4 weeks during their regular defecation ten different times maximum They will be provided with an adequate number of 15ml conical centrifuge tubes 339650 Thermo Scientific containing the best-performing preservation buffer as defined in the first phase of the study see above and a commercial collection device with a stool catcher Upon reception in the lab the samples will be stored at -80C until further biochemical processing using established protocols In addition the participants will fill out a questionnaire see above Participants will take part voluntarily in the experiment after receiving an explanation of all the risks and benefits of participating in the present study and after signing the written informed consent form according to the Declaration of Helsinki see the consent form attached The participants will be instructed and provided with necessary sampling devices to collect stool samples see above and submit the samples to the Department of Pharmacology and Toxicology at the earliest opportunity Participants will be expected to complete self-administered questionnaires that include information like the one described above For the second phase 46 healthy participants among the members of our laboratoryDivision will be recruited from both sexes 23 males and females considering a possible dropout rate of 20 This is a randomized study with no participant groups The sample size was calculated based on the threshold of Eggerthella estimates with time The statistics procedure used is F tests - two-way ANOVA with repeated measures with the following values Cohensd 075 1-β 080 and α 005 A total of 400 - 460 samples are expected to be collected
Study Oversight
Has Oversight DMC:
None
Is a FDA Regulated Drug?:
False
Is a FDA Regulated Device?:
False
Is an Unapproved Device?:
None
Is a PPSD?:
None
Is a US Export?:
None
Is an FDA AA801 Violation?:
None