Satellos Announces Submission of Regulatory Filing to Commence a Phase 1 Clinical Trial with SAT-3247

Rhea-AI Summary

Satellos Bioscience has submitted a clinical research proposal to Australia's Human Research Ethics Committee (HREC) on July 10, 2024, to start a Phase 1 trial for SAT-3247, an oral drug aimed at regenerating skeletal muscle in Duchenne muscular dystrophy (DMD) and other conditions. Expected to begin in Q3 2024, the trial will enroll healthy volunteers to assess safety and pharmacokinetics. Following successful preclinical and toxicology studies, this milestone marks Satellos' transition to a clinical-stage company. SAT-3247 could move to trials with DMD patients by early 2025, pending regulatory approvals.

Positive

• Submission of regulatory filing for SAT-3247 Phase 1 trial.
• Successful completion of preclinical and toxicology studies.
• Anticipated trial start in Q3 2024, marking transition to clinical-stage company.
• Potential advancement to DMD patient trials by early 2025.

Negative

• Approval required from HREC and TGA before clinical trials can begin.
• Initial trial to enroll only healthy volunteers, delaying direct DMD patient trials.

– Investigational New Drug (IND) enabling preclinical and toxicology studies successfully completed

– Initiation of a Phase 1 clinical trial of SAT-3247 anticipated in Q3 2024

TORONTO--(BUSINESS WIRE)-- Satellos Bioscience Inc. (“Satellos” or the “Company”) (TSX: MSCL, OTCQB: MSCLF), a public biotech company developing new small molecule therapeutic approaches to improve the treatment of muscle diseases and disorders, today announced submission on July 10, 2024, of a clinical research proposal to a Human Research Ethics Committee (HREC) in Australia seeking regulatory authorization under their Therapeutic Goods Administration’s (TGA’s) Clinical Trial Notification (CTN) scheme to conduct a first-in-human Phase 1 clinical trial of SAT-3247.

“We view this as a transformative development for Satellos as we become a clinical-stage company,” said Frank Gleeson, CEO and Co-founder of Satellos. “Our team is proud to have reached this important milestone on the timeline we have been working towards for the past year and see this achievement as a catalyst towards a steady cadence of milestones to come.”

SAT-3247 is a proprietary, oral small molecule drug being developed by Satellos as a novel treatment to regenerate skeletal muscle which is lost in Duchenne muscular dystrophy (DMD) and other degenerative or injury conditions. Subject to approval by the HREC and acceptance of the CTN by Australia’s TGA, the Phase 1 clinical trial is intended to enroll healthy volunteers to assess the safety and pharmacokinetic properties of SAT-3247. Following completion of this portion of its program, if successful, Satellos plans to advance SAT-3247 into clinical trials with DMD patients commencing in early 2025.

"We are pleased with the results from our preclinical studies and look forward to initiating clinical development of SAT-3247,” said Phil Lambert, Ph.D., Chief Scientific Officer of Satellos. “Prior to submitting our regulatory documentation, we conducted our preclinical and toxicology studies to the standards of relevant global regulatory bodies. Thus, we expect to be able to leverage these results for additional Phase 1 and subsequent clinical trials in Australia and further jurisdictions including the United States and Canada, where we plan to advance into trials with DMD patients."

About SAT-3247

SAT-3247 is an oral, small molecule drug candidate designed to target the root cause of muscle loss in degenerative diseases, initially in Duchenne. SAT-3247 presents a novel mechanism of action to restore impaired muscle regeneration caused by the absence of functional dystrophin.

About Duchenne Muscular Dystrophy

Duchenne muscular dystrophy is an inherited disease caused by mutations in the dystrophin gene that no longer allow the dystrophin protein to function properly. Consequently, as discovered by Satellos, muscle repair and regeneration are impaired. Satellos designed SAT-3247 to restore the process of muscle repair and regeneration by regulating a dystrophin-independent pathway with the goal of increasing muscle function. SAT-3247 is intended to work as a standalone therapeutic without regard to a patient’s genetic mutation or ambulatory status. Our approach has the potential to complement approaches designed to restore dystrophin production.

About Satellos Bioscience Inc.

Satellos is a publicly traded biotechnology company dedicated to developing life-improving medicines to treat degenerative muscle diseases. Satellos has incorporated breakthrough research in muscle stem cell polarity into a proprietary discovery platform, called MyoReGenX™, to identify degenerative muscle diseases where deficits in this process affect muscle regeneration and are amenable to therapeutic intervention. With this platform, Satellos is building a pipeline of novel therapeutics to correct muscle stem cell polarity and promote the body’s innate muscle repair and regeneration process. The Company’s lead program is an oral, small molecule drug candidate in development as a potential disease-modifying treatment for Duchenne muscular dystrophy. Satellos is headquartered in Toronto, Ontario. For more information, visit www.satellos.com.

Notice on Forward-Looking Statements

This press release includes forward-looking information or forward-looking statements within the meaning of applicable securities laws regarding Satellos and its business, which may include, but are not limited to, statements regarding the anticipated benefits to patients from a small molecule treatment for Duchenne; the advancement of our lead drug candidate into clinical trials; our belief that filing the regulatory application will be a catalyst towards a steady cadence of milestones to come; our belief that we can leverage the results from our preclinical and toxicology studies for additional clinical trials; the pharmacodynamic properties and mechanism-of-action of our lead drug candidate; the potential of our approach in other degenerative muscle diseases or in muscle injury or trauma; the general benefits of modulating stem cell polarity by administering small molecule drugs; its/their prospective impact on Duchenne patients, patients with other degenerative muscle disease or muscle injury or trauma, and on muscle regeneration generally; the utility of regenerating muscle by modulating polarity; adoption of Satellos’ approach by the medical community; and Satellos’ technologies and drug development plans. All statements that are, or information which is, not historical facts, including without limitation, statements regarding future estimates, plans, programs, forecasts, projections, objectives, assumptions, expectations or beliefs of future performance, occurrences or developments, are “forward-looking information or statements.” Often but not always, forward-looking information or statements can be identified by the use of words such as “shall”, “intends”, “anticipate”, “believe”, “plan”, “expect”, “intend”, “estimate”, “anticipate”, “potential”, “prospective” , “assert” or any variations (including negative or plural variations) of such words and phrases, or state that certain actions, events or results “may”, “might”, “can”, “could”, “would” or “will” be taken, occur, lead to, result in, or, be achieved. Such statements are based on the current expectations and views of future events of the management of the Company. They are based on assumptions and subject to risks and uncertainties. Although management believes that the assumptions underlying these statements are reasonable, they may prove to be incorrect. The forward-looking events and circumstances discussed in this release, may not occur and could differ materially as a result of known and unknown risk factors and uncertainties affecting the Company, including, without limitation, risks relating to the pharmaceutical and bioscience industry (including the risks associated with preclinical and clinical trials and regulatory approvals), and the research and development of therapeutics, the results of preclinical and clinical trials, general market conditions and equity markets, economic factors and management’s ability to manage and to operate the business of the Company generally, including inflation and the costs of operating a biopharma business, and those risks listed in the “Risk Factors” section of Satellos’ Annual Information Form dated March 26, 2024 (which is located on Satellos’ profile at www.sedarplus.ca). Although Satellos has attempted to identify important factors that could cause actual actions, events or results to differ materially from those described in forward-looking statements, there may be other factors that cause actions, events or results to differ from those anticipated, estimated or intended. Accordingly, readers should not place undue reliance on any forward-looking statements or information. No forward- looking statement can be guaranteed. Except as required by applicable securities laws, forward-looking statements speak only as of the date on which they are made and Satellos does not undertake any obligation to publicly update or revise any forward-looking statement, whether resulting from new information, future events, or otherwise.

View source version on businesswire.com: https://www.businesswire.com/news/home/20240711270123/en/

Investors: Liz Williams, ir@satellos.com

Business Development: Ryan Mitchell, Ph.D., bd@satellos.com

Media: Jessica Yingling, Ph.D., jessica@litldog.com, +1.858.344.8091

Source: Satellos Bioscience Inc.

FAQ

What is Satellos Bioscience’s latest development?

Satellos Bioscience submitted a proposal to start a Phase 1 trial for SAT-3247 on July 10, 2024.

What is the purpose of SAT-3247?

SAT-3247 is an oral drug aimed at regenerating skeletal muscle in Duchenne muscular dystrophy (DMD) and other conditions.

When is the Phase 1 clinical trial for SAT-3247 expected to start?

The Phase 1 clinical trial for SAT-3247 is anticipated to start in Q3 2024.

What does the Phase 1 trial for SAT-3247 aim to assess?

The trial aims to assess the safety and pharmacokinetics of SAT-3247 in healthy volunteers.

When could SAT-3247 potentially advance to trials with DMD patients?

SAT-3247 could potentially advance to trials with DMD patients by early 2025, pending successful results and approvals.