ANZCTR - Registration

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Trial registered on ANZCTR

Registration number

ACTRN12621001062819

Ethics application status

Approved

Date submitted

21/06/2021

Date registered

12/08/2021

Date last updated

23/03/2023

Date data sharing statement initially provided

12/08/2021

Type of registration

Retrospectively registered

Titles & IDs

Public title

Molecular networks underlying exercise-induced mitochondrial biogenesis in humans

Scientific title

Transcriptomic and proteomic changes associated with high intensity interval training-induced mitochondrial biogenesis within healthy adult human skeletal muscle

Secondary ID [1]

None

Universal Trial Number (UTN)

U1111-1266-8459

Trial acronym

Linked study record

Health condition

Health condition(s) or problem(s) studied:

Metabolic disorders

Condition category

Condition code

Metabolic and Endocrine

Normal metabolism and endocrine development and function

Musculoskeletal

Normal musculoskeletal and cartilage development and function

Intervention/exposure

Study type

Interventional

Description of intervention(s) / exposure

High-intensity interval training (HIIT) exercise.
Participants will train 4 times per week throughout the 8-week period. Each exercise session will consist of four 4-minute intervals at an intensity of 80% of a participants peak power output on a stationary bike. Each interval will be seperated by 2-minutes of rest for a total session time of 22 minutes. Each training session will be performed at the Exercise Physiology laboratory at Footscray Park Campus (Victoria University) one-on-one with a researcher to ensure compliance. This intensity has been selected as it has previously been shown to elicit a large response within muscle to generate mitochondrial biogenesis.

Muscle biopsies and blood samples will be collected from participants by an experienced medical doctor during the first HIIT session (at timepoints before, in the middle of, and at timepoints 0, 3, 6, 9, 12, 24, and 48 hours after exercise completion) at the beginning of training and after the completion of the 8-weeks of training.

Intervention code [1]

Lifestyle

Intervention code [2]

Treatment: Other

Comparator / control treatment

Samples collected prior to training will be used as a control (before the start of the first HIIT session). An additional control will be a number of participants who will have the same number and timing of muscle biopsies but will not complete the HIIT session.

Control group

Active

Outcomes

Primary outcome [1]

Mitochondrial dynamics measured as protein and phosphoprotein content changes in different subcellular compartments (via mass spectrometry-based proteomics) and gene expression (via RNA sequencing). Although this study will be exploratory, confirmation of biomolecular changes will occur through targeted analyses (quantitative PCR & immunoblotting). All measurements are from skeletal muscle obtained from the vastus lateralis.

Timepoint [1]

Before, in the middle of, and 0, 3, 6, 9, 12, 24, and 48 hours after the first exercise session in week 1.

Secondary outcome [1]

Mitochondrial content measured as mitochondrial volume are from a composite of electron microscopy (EM) images, citrate synthase activity through an enzymatic assay, and mtDNA copy number through quantitative PCR. All three measurements of mitochondrial content are from skeletal muscle obtained from the vastus lateralis.

Timepoint [1]

Before the first exercise session in week 1 and 72h after the last exercise session in week 8.

Secondary outcome [2]

Mitochondrial respiratory function in permeabilised fibres obtained from the vastus lateralis assessed with an oxygen respirometer that tracks changes in oxygen levels when substrates are added to the permeabilised fibres. These substrates include malate, pyruvate, ADP of varying concentrations, succinate, cytochrome c, carbonyl cyanide-p-trifluoromethoxyphenylhydrazone (FCCP), and antimycin A.

Timepoint [2]

Before the first exercise session in week 1 and 72h after the last exercise session in week 8.

Secondary outcome [3]

Changes in the physiological fitness of participants. This will be assessed as a composite of changes in VO2max, power at lactate threshold, and peak power output values taken from an exercise test prior to the beginning the study and after 8-weeks of training on a cycling ergometer.

Timepoint [3]

Before the start of the 8-weeks of training and following the completion of the 8-weeks of training.

Eligibility

Key inclusion criteria

- Aged 18-40 years old, Men & Women
- Be generally ‘healthy’: Non-smoker, free from pre-existing medical conditions (e.g., heart rhythm disturbance, elevated blood pressure, diabetes), cardiovascular abnormalities, respiratory conditions and musculoskeletal injuries.
- Not taking prescription medication (e.g., beta-blockers, anti-arrhythmic drugs, statins or insulin sensitising drugs).
- Undertaken less than the current weekly physical activity guidelines for adults (150 minutes of moderate intensity physical activity, or 75 minutes of vigorous intensity physical activity) for at least 3 months prior to the study.
- Have a body mass index (BMI) between 18.5-34.9 kg/m2

Minimum age

18 Years

Maximum age

40 Years

Sex

Both males and females

Can healthy volunteers participate?

Yes

Key exclusion criteria

- Current muscle or ligament injury of the lower body.
- Current or previous cardiovascular or respiratory condition or abnormality.
- Current metabolic disease (e.g. diabetes)

Study design

Purpose of the study

Treatment

Allocation to intervention

Non-randomised trial

Procedure for enrolling a subject and allocating the treatment (allocation concealment procedures)

Methods used to generate the sequence in which subjects will be randomised (sequence generation)

Masking / blinding

Open (masking not used)

Who is / are masked / blinded?

Intervention assignment

Single group

Other design features

Phase

Not Applicable

Type of endpoint/s

Efficacy

Statistical methods / analysis

Physiological and performance data will be analysed using a two-way ANOVA with repeated measures for time to investigate the influence of sex and time. Statistical significance will be defined as a P-value less than 0.05. A Bonferonni correction will be used to correct P-values for the multiple comparisons, helping to lower the rate of false positives.
The RNA-Seq reads will be quality controlled and trimmed using Trim Galore v0.3.7 and Cutadapt v1.4.2. Pre-processed reads will be mapped to the latest annotated human genome using Rsubread and gene coverages will be computed with 'featureCounts' and the 'Gencode' annotation. Gene lists will be filtered to achieve a read coverage for each gene larger than 0.1 reads per kilo base million in at least five samples. Differential expression will be computed using edgeR with the 'glmQLFit/glmQLFTest' modelling framework and the following models 'y~Timepoint + Subject' will be used for each of the groups. Genes with a false discovery rate (FDR) < 5% will be considered differentially expressed. Quantitative Realtime PCR (qPCR), will be used to verify gene expression results of a panel of known and novel exercise regulated genes identified by the RNA-Seq analysis.
The raw mass spectrometry data will initially be processed in the MaxQuant software. Intensity data will be normalised to remove variation arising from labelling, batch, and handling differences using novel algorithms developed at the University of Melbourne. Log2 transformed normalised intensities will be assigned to experimental groups based on the sex and time point of the participants using the Perseus software. Proteins with large standard deviation and/or excessive missing values (>30%) for a time point will be removed. Differentially regulated proteins will be identified by a modified ANOVA incorporating permutation-based FDR statistics, which tests for changes in the means between time points as well as reproducibility within each time point. Significantly regulated proteins and their respective phosphosites (<5% FDR, >1.5 fold change) will be analysed for enriched terms (e.g. using the GO, & KEGG databases) using the FunRich software, and the DAVID online tool as previously performed by his group. Clusters of enriched terms and their interconnection will be visualised by Cytoscape and the Enrichment Map plugin.

Recruitment

Recruitment status

Completed

Date of first participant enrolment

Anticipated

Actual

14/06/2021

Date of last participant enrolment

Anticipated

16/05/2022

Actual

22/08/2022

Date of last data collection

Anticipated

25/07/2022

Actual

2/12/2022

Sample size

Target

Accrual to date

Final

Recruitment in Australia

Recruitment state(s)

VIC

Recruitment postcode(s) [1]

3011 - Footscray

Recruitment postcode(s) [2]

3000 - Melbourne

Recruitment postcode(s) [3]

3065 - Fitzroy

Funding & Sponsors

Funding source category [1]

Government body

Name [1]

Australian Research Council

Address [1]

11 Lancaster Pl
Canberra ACT 2609, Australia

Country [1]

Australia

Funding source category [2]

University

Name [2]

Victoria University

Address [2]

Institute of Sport, Exercise & Active Living
College of Sport and Exercise Science
70/104 Ballarat Rd, Footscray 3011
Melbourne VIC, Australia

Country [2]

Australia

Primary sponsor type

University

Name

Victoria University

Address

Institute of Sport, Exercise & Active Living
College of Sport and Exercise Science
70/104 Ballarat Rd, Footscray 3011
Melbourne VIC, Australia

Country

Australia

Secondary sponsor category [1]

University

Name [1]

The Australian Catholic University

Address [1]

Mary MacKillop Institute for Health Research
5/215 Spring St, Melbourne 3000
Melbourne VIC, Australia

Country [1]

Australia

Ethics approval

Ethics application status

Approved

Ethics committee name [1]

VU Human Research Ethics Committee (VUHREC)

Ethics committee address [1]

Institute of Sport, Exercise & Active Living
College of Sport and Exercise Science
70/104 Ballarat Rd, Footscray 3011
Melbourne VIC, Australia

Ethics committee country [1]

Australia

Date submitted for ethics approval [1]

25/11/2020

Approval date [1]

28/05/2021

Ethics approval number [1]

HRE20-212

Summary

Brief summary

Mitochondria are compartments within our cells that facilitate various important processes, including that of energy generation. Mitochondria rapidly adapt to changing needs within the cell through a process called mitochondrial biogenesis, by which, new components are added to the network of mitochondria. Mitochondrial biogenesis is stimulated in skeletal muscle by exercise, however, the signalling that allows this to occur is poorly understood.
This project aims to uncover the different signalling pathways activated by exercise in skeletal muscle using novel techniques combined with advanced statistical analysis. Analysis will be performed on quadriceps muscle biopsies collected from forty untrained men and women (equal numbers of each). Using samples both prior, in the middle, and at multiple time points after exercise, we will capture all changes in gene expression and protein localisation. This data will be combined with measurements of participants' fitness before and after training to generate a timeline and predictive model of mitochondrial biognesis signalling.
Expanding the knowledge of mitochondrial biology will have many ramifications for both athletic and biomedical disciplines. Recently, links between the function of mitochondria and life expectancy have been discovered, with numerous diseases characterised by mitochondrial dysfunction, such as diabetes, cardiomyopathy and various neurological disorders on the rise globally. We hope by understanding how exercise triggers mitochondrial biogenesis, exercise can be used to a greater effect as therapy for these diseases. By applying this methodology to different exercise intensities and durations, better exercise prescription for athletes can also be determined. Additionally, the identification of novel mitochondrial biogenesis regulators may enable new targeted drugs that aid treatment of mitochondrial dysfunction or mimic exercise in those who cannot do exercise.

Trial website

Trial related presentations / publications

Public notes

Contacts

Principal investigator

Name

Prof David Bishop

Address

Victoria University
Ballarat Rd
Footscray Park Campus
Footscray, Melbourne
3011, VIC
Australia

Country

Australia

Phone

+61 399199471

Fax

[email protected]

Contact person for public queries

Name

David Bishop

Address

Victoria University
Ballarat Rd
Footscray Park Campus
Footscray, Melbourne
3011, VIC
Australia

Country

Australia

Phone

+61 399199471

Fax

[email protected]

Contact person for scientific queries

Name

Dale Taylor

Address

Victoria University
Ballarat Rd
Footscray Park Campus
Footscray, Melbourne
3011, VIC
Australia

Country

Australia

Phone

+61 426297186

Fax

[email protected]

Data sharing statement

Will individual participant data (IPD) for this trial be available (including data dictionaries)?

Yes

What data in particular will be shared?

Main outcome variables; physiological measurements (BMI, VO2max, power at lactate threshold, enzymatic assays)

When will data be available (start and end dates)?

As soon as possible after publication for at least 5 years

Available to whom?

Case by case basis by principal investigator discretion

Available for what types of analyses?

For meta-analyses

How or where can data be obtained?

By emailing PI
[email protected]

What supporting documents are/will be available?

No Supporting Document Provided

Results publications and other study-related documents

Documents added manually

No documents have been uploaded by study researchers.

Documents added automatically

No additional documents have been identified.

Trial Review

Documents added manually

Documents added automatically