Join today and have your say! It’s FREE!

Become a member today, It's free!

We will not release or resell your information to third parties without your permission.
Please Try Again
{{ error }}
By providing my email, I consent to receiving investment related electronic messages from Stockhouse.

or

Sign In

Please Try Again
{{ error }}
Password Hint : {{passwordHint}}
Forgot Password?

or

Please Try Again {{ error }}

Send my password

SUCCESS
An email was sent with password retrieval instructions. Please go to the link in the email message to retrieve your password.

Become a member today, It's free!

We will not release or resell your information to third parties without your permission.
Quote  |  Bullboard  |  News  |  Opinion  |  Profile  |  Peers  |  Filings  |  Financials  |  Options  |  Price History  |  Ratios  |  Ownership  |  Insiders  |  Valuation
Company Logo

Destroying Cancer at the Speed of Light®

Clinical Study Underway (75 of 100 Patients Treated)
Expected to complete enrollment at the end of 2024
Expected to complete study at the end of 2026


Bullboard - Investor Discussion Forum Theralase Technologies Inc. V.TLT

Alternate Symbol(s):  TLTFF

Theralase Technologies Inc. is a Canada-based clinical-stage pharmaceutical company. The Company is engaged in the research and development of light activated compounds and their associated drug formulations. The Company operates through two divisions: Anti-Cancer Therapy (ACT) and Cool Laser Therapy (CLT). The Anti-Cancer Therapy division develops patented, and patent pending drugs, called... see more

TSXV:TLT - Post Discussion

Theralase Technologies Inc. > Anti-tumour Immunity Documented in PDT of Melanoma!
View:
Post by Eoganacht on Dec 29, 2020 4:50pm

Anti-tumour Immunity Documented in PDT of Melanoma!

This is huge! Melanoma is notorious for it's success in immune system evasion.

Discovery of immunogenic cell death-inducing ruthenium-based photosensitizers for anticancer photodynamic therapy

Prathyusha Konda, Liubov M. Lifshits, John A. Roque III, Houston D. Cole, Colin G. Cameron, Sherri A. McFarland & Shashi Gujar
 
Article: 1863626 | Received 04 Dec 2020, Accepted 08 Dec 2020, Published online: 29 Dec 2020
 
ABSTRACT
 
We report a new class of ruthenium (Ru)-based photosensitizers that induce potent cytotoxicity in melanoma cells following activation with NIR light. In addition to the direct cytotoxic effect, this Ru-based photodynamic therapy induces immunogenic cell death in melanoma cells that can be therapeutically exploited to establish protective antitumor immunity.
 
We recently reported ruthenium (Ru) coordination complexes derived from three different ligands arranged in a pseudo-octahedral geometry around the metal center. 1 Here, each ligand combined with Ru, plays a unique role in achieving the desired chemical and photophysical properties of the overall three-dimensional structure. In the [Ru(NNN)(NN)(L)]Cl2 construct, NNN is a tridentate polypyridyl ligand that is designed to shift the light absorption window for the photosensitizer into the near-infrared (NIR) region [Figure 1a]. The bidentate, π-expanded NN ligand provides access to certain ligand-localized triplet states that are extremely good at sensitizing singlet oxygen, which is thought to be the most important mediator of the PDT effect. 2 The monodentate L ligand provides a handle for fine-tuning the absorption window and the efficiency of singlet oxygen production but also tunes the overall chemical and photochemical stabilities of the complexes as well as biological toxicity profiles. The modular architecture of the multiligand construct provides a robust platform for exploration of a vast molecular landscape.

Figure
Figure 1. Discovery of immunogenic cell death (ICD)-promoting ruthenium (Ru)-based photosensitizers (PS)
 
(a) . Structural features of novel Ru PSs. Nine different compounds were synthesized and characterized to determine the impact of the ligand combinations on the photophysical properties and PDT efficacies within this new Ru PS class. The combination of tpbn or dnp as the chromophoric NNN ligand, dppn as the PDT ligand, and 4-pic or 4-mp as the monodentate L ligand produced the optimal energetics for singlet and triplet states to yield NIR-active Ru PSs. We identified ML18H01 as a lead Ru PSs for further in vivo studies.

(b). Induction of ICD in melanoma following Ru-based photodynamic therapy (PDT).
The Ru PS absorbs photons from a light source, initially forming the short-lived excited singlet state that undergoes a change in electron spin to produce the long-lived and lower-energy triplet state. The triplet state PS produces reactive oxygen species (ROS) which leads to B16F10 cancer cell death. This Ru PS-based PDT additionally induces the expression of molecules associated with inflammatory pathways and damage-associated molecular patterns (DAMPs) characteristic of immunogenic cell death. In vivo vaccination of mice with Ru PDT-treated melanoma cells develop antigen-specific antitumor immunity protective against melanoma growth and confirm the induction of ICD. IL6: Interleukin 6; IFNβ: Interferon Beta; IFIT1: Interferon Induced Protein With Tetratricopeptide Repeats 1; TLR3: Toll-Like Receptor 3; HSP90: Heat Shock Protein 90; HSPA1B: Heat Shock Protein Family A (Hsp70) Member 1B; CXCL10: C-X-C Motif Chemokine Ligand 10; TNFα: Tumor Necrosis Factor-Alpha; H2D: H-2 class I histocompatibility antigen, D chain; β2M: Beta-2-Microglobulin; TAP1: Transporter associated with Antigen Processing 1; CALR: Calreticulin; ATP: Adenosine triphosphate; HMGB1: High Mobility Group Box 1.
 
These Ru photosensitizers (PS) represent a marked departure from the traditional tetrapyrrole macrocycles that have been approved and/or clinically investigated for use as PDT agents and have salient advantages over the organic macrocycles. For example, Ru PSs are extremely modular and thus highly tunable for a broad range of applications. Further, the incorporation of the heavy Ru atom leads to near-unity efficiency for the formation of triplet states, which are the states responsible for sensitizing singlet oxygen, from their initially excited singlet states. Specifically, in this study, we have (i) identified the optimal combination of ligands on Ru to achieve NIR-absorbing singlet states and lowest energy triplet states for singlet oxygen production, and (ii) demonstrated a potent cytotoxic effect on melanoma cells with NIR PDT. 2
 
Next, we evaluated the immunological repercussions for cell death within melanoma cells following Ru PDT. 2 Considering the positive correlation between antitumor immunity and better melanoma outcomes, 3,4 we specifically investigated a phenomenon of immunogenic cell death (ICD) within Ru PDT-treated melanoma cells. In the context of cancers, ICD is a regulated form of cell death that encompasses a cascade of immune responses 5,6 promoting adjuvanticity and antigenicity – both essential for the development of antitumor immunity. For this purpose, we assessed a series of ICD ‘hallmarks’ within melanoma cells following Ru PDT in vitro. First, we investigated reactive oxygen species (ROS), an important mediator of PDT-induced cytotoxicity and known mediator of hypericin PDT-induced ICD. 6 We found induction of both mitochondrial and cellular ROS in Ru PDT-treated B16F10 melanoma cells. Additionally, we captured significantly upregulated expression of genes encoding the constituents of type 1 interferon pathway, proinflammatory cytokines, and antigen-presentation machinery. Some of the key markers analyzed here included IL6 (a proinflammatory cytokine important for dendritic cell differentiation and PDT-mediated antitumor immunity 7 ), CXCL10 (involved in T cell chemotaxis), and TLR3 6 (involved in amplifying proinflammatory signals such as type I IFNs 6 ). Additionally, significantly enhanced HSP90 and HSPA1B gene expression and calreticulin translocation to plasma membrane, ‘eat-me’ signals enabling the uptake of dead and dying cancer cells by antigen-presenting cells, was observed within Ru PDT-treated melanoma cells. 5,6 Finally, increased levels of ICD hallmarks ATP and HMGB1 were also detected in the extracellular media of Ru PDT-treated melanoma cells. Together, these data showed that cytotoxicity within melanoma cells following Ru PDT is accompanied by bona fide ICD markers in vitro.
 
To demonstrate the clinical utility, we then investigated the capacity of Ru PDT-induced ICD to activate antitumor immunity in vivo. For this purpose, Ru PDT-treated, ICD-undergoing B16F10 melanoma cells were used to vaccinate syngeneic C57BL/6NCrl mice on their left flanks. After 7 days, these mice were challenged with non-treated B16F10 cells on their right flanks. We found that vaccination with Ru-PDT-treated B16F10 cells conferred protection by causing either reduced or delayed tumor growth upon challenge with non-treated B16F10 cells, and lead to an improved tumor-free survival in vaccinated mice as compared to the unvaccinated group. As the vaccination and challenge were performed on the opposite flanks of the mice, the tumor-inhibiting effects of Ru PDT-based vaccinations also indicated the generation of systemic antitumor immunity causing the abscopal effect.
 
Of note, in light of growing appreciation of the influence of sex, as a biological variable, on cancer progression and therapeutic outcomes, 8 our studies included both male and female mice. Interestingly, we found that while tumor growth dynamics were comparable in male and female mice, protection from tumor development upon vaccination and tumor-free survival was higher in female mice as compared to males. These data are in congruence with the observations that male and female melanoma patients display different susceptibilities to therapeutic interventions resulting in sex-biased clinical outcomes. 8 Further, these data also agree with the observations reporting superior tumor-specific CD8 + T cell responses against B16F10 melanoma in female mice in response to checkpoint therapy. 9 Since CD8 + T cell responses are the ultimate immune effectors within ICD-induced antitumor immune response, 6 we believe that similar variations within anti-melanoma CD8 T cell responses occur following Ru PDT.
 
In summary, our results show that Ru PDT (with clinically approved red light) produces clinically desired anticancer attack on melanoma via two-prongs: 1) by causing direct cytotoxicity in melanoma cells, and 2) via ICD-mediated generation of protective antitumor immunity [Figure 1b]. Such a Ru PDT-induced and non-exclusive two-pronged attack on cancers can be harnessed not only to eradicate existing cancer cells but also to establish protection against possible cancer relapse.

Acknowledgments
This work was supported via the National Cancer Institute (NCI) of the National Institutes of Health (NIH)’s Award R01CA222227 to S.A.M. and S.G. The content in this article is solely the responsibility of the authors and does not necessarily represent the official views of the NIH.
 
Disclosure statement
S.A.M. has a potential research conflict of interest due to a financial interest with Theralase Technologies, Inc. and PhotoDynamic, Inc. A management plan has been created to preserve objectivity in research in accordance with UTA policy.
 
Additional information
Funding
This work was supported via the National Cancer Institute (NCI) of the National Institutes of Health (NIH)’s Award R01CA222227.

 
Comment by fredgoodwinson on Dec 29, 2020 4:54pm
Thanks again Eog- your vigilance never fails us. Also agree skys1 - good post.
Comment by menoalittle on Dec 29, 2020 4:58pm
wow... y'er an expert sleth, eoganact, and (with the exception of a handful of others that seem to rarely have posted here anymore) add more value to this board than nearly all others here combined.
Comment by Longholder99 on Dec 29, 2020 5:23pm
Amen to that. Thanks so much Eoganacht
Comment by tamarindo1 on Dec 29, 2020 7:22pm
Thanks for your latest Eoganact: Don't you dare leave this board, well, at least for another year or so.  :-)
Comment by BlueFranky on Dec 29, 2020 5:36pm
Thanks so very much once again. Eoganacht! .. your efforts are invaluable as we move forward!
Comment by enriquesuave on Dec 29, 2020 5:46pm
Awesome find once again and it further confirms the Anti-Tumor Immune stimulation of PDT.  This should provide for a much longer CR status for our patients treated  in NMIBC trial and all others to come.  The vaccine like effect of PDT caused by the full Tumor destruction from PDT by ICD allows for an unprecedented potent vaccine effect IMO.because of the high dose of released DAMPs ...more  
Comment by StevenBirch on Dec 29, 2020 7:10pm
I'm a little late here but thanks Eoganacht once again, maybe 2021 will be our year!
Comment by Bigkahuna57 on Dec 29, 2020 9:02pm
Hello to all.  I'm a little late too, but no less grateful.  Thank you to everyone that contributed to this board in 2021.  And most recently Eoganacht. Good luck to all.  Regards,BK.
Comment by skier59 on Dec 29, 2020 8:32pm
Yup, you 2 dudes are much appreciated with imformative posts, thanks :)
Comment by CancerSlayer on Dec 30, 2020 12:05am
  Enrique stated:  "Not just from partial Tumor destruction as in other treatment modalities, but by having pretty much full Tumor destruction after first treatment session." In the same vein (no pun intended ;), you can also add the fact that cancer mutations which can confer resistance to chemo or radiation therapy cannot do the same when confronting the unique mechanism ...more  
Comment by NorCalTommy on Dec 29, 2020 9:17pm
Thanks Eoganacht, very compelling data.....  one of these days... !!
Comment by jicoop on Dec 29, 2020 10:05pm
Yah, a little late too, but still here. thanks Eoganacht, and to all regulars, let's hope for a good 2021, maybe Vegas 2022 ? Now when will they get 1633 into the mix. Coop
Comment by Rumpl3StiltSkin on Dec 29, 2020 10:30pm
Good find Eoga, Nice discussion guys! Best to all in 2021!
Comment by CancerSlayer on Dec 29, 2020 10:53pm
Thanks Eoganacht for that find.  You are a stellar researcher of research.  This study's finding surely makes me a proud TLT shareholder.  Therapeutic cancer vaccine trials (mRNA-based & antigen/adjuvant-based) show great promise & this study further highlights our potential in this field.  Personalized cancer vaccines should also work well in those cancers where ...more  
Comment by skier59 on Dec 30, 2020 8:47am
BUMP
The Market Update
{{currentVideo.title}} {{currentVideo.relativeTime}}
< Previous bulletin
Next bulletin >

At the Bell logo
A daily snapshot of everything
from market open to close.


Connect with V.TLT



Investor Presentation

The Road to Saving Lives: Clinical Study Underway

  • Clinical Study with 75 of 100 Patients Treated (Enrollment to be completed by end of 2024, with study completed by end of 2026)
     
  • Ground Floor Investment Opportunity in Multi-Billion Dollar Industry
     
  • Best-in-class treatment for NMIBC (according to interim clinical data)
     
  • NMIBC (Non-Muscle-Invasive Bladder Cancer)
     

FACT SHEET

View the Presentation

The Watchlist

The Watchlist
{{currentVideo.videoCaption}}
< Previous Video {{moreVideoText}} Next Video >

Investment Opportunity

The Road to Saving Lives: Clinical Study Underway

  • Clinical Study with 72 of 100 Patients Treated (Enrollment to be completed by end of 2024, with study completed by end of 2026)
     
  • Ground Floor Investment Opportunity in Multi-Billion Dollar Industry
     
  • Best-in-class treatment for NMIBC (according to interim clinical data)
     
  • NMIBC (Non-Muscle-Invasive Bladder Cancer)
     

Facebook

Contact Us

Address:
41 Hollinger Road
Toronto, ON M4B 3G4
Canada

Toll Free:
1-866-THE-LASE (843-5273)
Local Phone:
416-699-LASE (5273)

Email:
info@theralase.com

Fax:
416-699-5250