Sign In  |  Register  |  About Mill Valley  |  Contact Us

Mill Valley, CA
September 01, 2020 1:29pm
7-Day Forecast | Traffic
  • Search Hotels in Mill Valley

  • CHECK-IN:
  • CHECK-OUT:
  • ROOMS:

Gain Therapeutics Announces Preclinical Data Showing Restoration of Enzymatic Function with Novel Allosteric Regulators in GM1 Gangliosidosis Model

Compounds significantly restored β-Gal function and reduced intracellular toxic substrates in model of GM1 gangliosidosis

Results published in PLOS ONE in collaboration with Institute for Research in Biomedicine

BETHESDA, Md., Dec. 01, 2023 (GLOBE NEWSWIRE) -- Gain Therapeutics, Inc., (Nasdaq: GANX), a clinical-stage biotechnology company leading the discovery and development of the next generation of allosteric small molecule therapies, today announced the publication of preclinical data identifying a novel class of small molecule allosteric regulators that demonstrate therapeutic potential for galactosidase beta 1 (GLB1)-related lysosomal storage disorders (LSDs), including GM1 gangliosidosis. The study, “Validation of a highly sensitive HaloTag-based assay to evaluate the potency of a novel class of allosteric β-Galactosidase correctors,” was published in PLOS ONE.

GM1-gangliosidosis is an inherited, progressive disorder characterized by the degeneration of brain and spinal cord cells, leading to muscle weakness, skeletal abnormalities, dystonia, and vision problems. Mutations in the GLB1 gene significantly reduce the activity and function of the lysosomal hydrolase enzyme β-galactosidase (β-Gal) due to protein misfolding.

Depending on the age of onset, which can occur during infancy and up into adulthood, life expectancy of patients can be significantly shortened. Additionally, there are no available disease-modifying treatments for GM1 gangliosidosis, with available therapies only focused on reducing symptoms and improving quality of life. To enhance patient outcomes, there is a significant need to bring safe and effective treatments into the clinic that can alter progression of the disorder.

“Lysosomal storage disorders are difficult to treat with traditional pharmacological interventions because most approaches cause an inhibitory effect on the lysosomal enzyme by acting on the active site. The small allosteric regulators that we are characterizing correct protein misfolding by binding the mutated proteins outside the active site, without interfering with enzymatic activity,” said Maurizio Molinari, PhD, Protein Folding and Quality Control Group Leader, Institute for Research in Biomedicine in Switzerland and senior author on the paper. “This impressive data demonstrates the potential of allosteric modulators as a therapeutic option for hard-to-treat, genetic diseases where there are no effective approaches for disease modification.”

In the PLOS ONE study, scientists from Gain used Gain’s proprietary Site-directed Enzyme Enhancement Therapy (SEE-Tx) technology followed by molecular interaction and ligand binding studies to identify and characterize two structurally targeted allosteric regulators of β-Gal. A biochemical HaloTag cleavage assay was developed by the researchers from the Institute for Research in Biomedicine and utilized to measure lysosomal delivery capabilities of β-Gal. Results showed that the two compounds (GT-00513 and GT-00413) stabilized, enhanced and restored the key biological lysosomal transport functions of β-Gal and reduced the levels of the intracellular toxic substrate, GM1 ganglioside, in GM1 gangliosidosis patient-derived cells.

“Restoring the function of misfolded proteins is a therapeutic approach that is accessible only through allosteric small molecule regulators that can be efficiently discovered with our pioneering computational drug discovery platform,” said Manolo Bellotto, Chief Strategy Officer and General Manager of Gain Therapeutics and co-author on the paper. “This approach has been validated with our clinical-stage lead drug candidate GT-02287, which restores the function of glucocerebrosidase for the treatment of Parkinson’s disease and repairs the disease cascade triggered by protein misfolding.”

About Gain Therapeutics, Inc.

Gain Therapeutics, Inc. is a clinical-stage biotechnology company leading the discovery and development of next generation allosteric therapies. Gain’s lead drug candidate GT-02287, in development for the treatment of GBA1 Parkinson’s disease, is currently being evaluated in a Phase 1 clinical trial.

Leveraging AI-supported structural biology, proprietary algorithms and supercomputer-powered physics-based models, the company’s SEE-Tx® discovery platform can identify novel allosteric binding sites on disease-implicated proteins, pinpointing pockets that cannot be found or drugged with current technologies. Gain’s unique approach enables the discovery of novel, allosteric small molecule modulators that can restore or disrupt protein function. Deploying its highly advanced platform, Gain is accelerating drug discovery and unlocking novel disease-modifying treatments for untreatable or difficult-to-treat disorders including neurodegenerative diseases, rare genetic disorders and oncology. For more information, please visit GainTherapeutics.com and follow us on LinkedIn.

About Institute for Research in Biomedicine (IRB, Bellinzona), an institute affiliated to Università della Svizzera italiana (USI)

Founded in 2000 in Bellinzona, Switzerland, the Institute for Research in Biomedicine (IRB) hosts 13 research groups studying infectious, inflammatory, tumors and rare diseases in order to identify new therapeutic strategies. As a result of its activities, the IRB has gained considerable international recognition in the fields of immunology, cell and structural biology and DNA repair. Molinari’s laboratory investigates the molecular mechanisms regulating chaperone-assisted protein folding and the quality control processes determining whether a polypeptide should be transported at the intra- or extra-cellular site of activity, or if it should be selected for degradation. Emphasis is given on establishing causes of diseases resulting from misfolding of mutant gene products such as α1-antitrypsin deficiency and lysosomal storage disorders and to explore novel therapeutic approaches to alleviate disease phenotypes. IRB offers training opportunities for young researchers at all levels. This is made possible through collaborations with Swiss and foreign universities. Since its opening, IRB has trained more than 1210 PhD students who have gone on to careers in academia or industry both in Switzerland and abroad. In 2021, IRB and IOR (Institute of Oncology Research) formed the Bios+ (Bellinzona Institutes of Science) association, with the mission to create new synergies and to promote and coordinate the scientific research and teaching activities of the two institutes. The vision of Bios+ is to promote the growth of a biomedical research center in Italian-speaking Switzerland. For more information, please visit www.irb.usi.ch.

About the research group of Prof. Molinari (IRB, Bellinzona)

The Protein Folding and Quality Control group lead by Prof. Molinari was established at the IRB in 2000. The group is dissecting the mechanisms that regulate the chaperone-assisted production of correctly folded proteins in the Endoplasmic Reticulum (ER), and the quality control events that select misfolded proteins for proteasome-driven ER-Associated Degradation (ERAD), or for lysosome-driven ER-to-Lysosome-Associated Degradation (ERLAD). Studies are ongoing to characterize the unfolded protein responses (UPR) and the ER-phagy pathways that operate in mammalian cells to ensure the adaptation of ER size and activity to the cellular needs.

A thorough knowledge of the processes that maintain ER function is instrumental to identify drug targets and to design and assess therapies for human diseases elicited by pathogens or linked to aberrant ER homeostasis resulting from expression of defective gene products (e.g., rare genetic disorders such as alpha1-antitrypsin deficiency or lysosomal storage disorders). For more information, please visit Lab Molinari, X and LinkedIn.

Cautionary Note Regarding Forward-Looking Statements

This press release contains "forward-looking statements" within the meaning of the Private Securities Litigation Reform Act of 1995. All statements in this press release other than statements of historical facts are “forward-looking statements”. In some cases, you can identify these statements by forward-looking words such as "may," "might," "will," "should," "expect," "plan," "anticipate," "believe," "estimate," "predict," "goal, " "intend," "seek, " "potential" or "continue," the negative of these terms and variations of these words or similar expressions that are intended to identify forward-looking statements, although not all forward-looking statements contain these words. Forward-looking statements in this press release include, but are not limited to, statements regarding: the development of the Company’s current or future product candidates including GT-02287; expectations regarding the timing of results from a Phase 1 clinical study for GT-02287; and the potential therapeutic and clinical benefits of the Company’s product candidates. These forward-looking statements are based on the Company’s expectations and assumptions as of the date of this press release. Each of these forward-looking statements involves risks and uncertainties that could cause the Company’s preclinical and future clinical development programs, future results or performance to differ materially from those expressed or implied by the forward-looking statements. These statements are not historical facts but instead represent the Company's belief regarding future results, many of which, by their nature, are inherently uncertain and outside the Company's control. Many factors may cause differences between current expectations and actual results, including the impacts of the post-COVID-19 environment and other global and macroeconomic conditions on the Company’s business; clinical trials and financial position; unexpected safety or efficacy data observed during preclinical studies or clinical trials, clinical trial site activation or enrollment rates that are lower than expected; changes in expected or existing competition; changes in the regulatory environment; the uncertainties and timing of the regulatory approval process; and unexpected litigation or other disputes. Other factors that may cause the Company’s actual results to differ from those expressed or implied in the forward-looking statements in this press release are identified in the section titled “Risk Factors,” in the Company’s Annual Report on Form 10-K filed with the Securities and Exchange Commission on March 23, 2023 and its other documents subsequently filed with or furnished to the Securities and Exchange Commission from time to time. All forward-looking statements contained in this press release speak only as of the date on which they were made. The Company undertakes no obligation to update such statements to reflect events that occur or circumstances that exist after the date on which they were made, except as required by law.

Investor & Media Contact:

Susan Sharpe
Linnden Communications
(919) 602-2330
susan@linndencom.com


Primary Logo

Data & News supplied by www.cloudquote.io
Stock quotes supplied by Barchart
Quotes delayed at least 20 minutes.
By accessing this page, you agree to the following
Privacy Policy and Terms and Conditions.
 
 
Copyright © 2010-2020 MillValley.com & California Media Partners, LLC. All rights reserved.