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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 Photo Dynamic Compounds (PDCs) and activates them with patent pending laser technology to destroy specifically targeted cancers, bacteria and viruses. The CLT division is responsible for the Company’s medical laser business. The Cool Laser Therapy division designs, develops, manufactures and markets super-pulsed laser technology indicated for the healing of chronic knee pain. The technology has been used off-label for healing numerous nerve, muscle and joint conditions. The Company develops products both internally and using the assistance of specialist external resources.


TSXV:TLT - Post by User

Comment by skyhawk1on Jan 22, 2021 12:29am
249 Views
Post# 32356846

RE:More Research from Dr. McFarland

RE:More Research from Dr. McFarland
Eoganacht wrote: In this paper, Dr. McFarland and colleagues explore how the structure of the TLD1433 molecule leads to increased photocytoxicity. TLD1433, (Ru-ip-3T in the diagram), has 3 thiophene rings attached to the ligand. Photocytoxicity increases as the number of thiophene rings increases and 3 seems to be the optimum number.

It Takes Three to Tango: The Length of the Oligothiophene Chain Determines the Nature of the LongLived Excited State and the Resulting Photocytotoxicity of a Ruthenium(II) Photodrug

Avinash Chettri  John A. Roque III  Kilian R. A. Schneider  Houston D. Cole  Dr. Colin G. Cameron  Prof.Dr. Sherri A. McFarland  Prof.Dr. Benjamin Dietzek
 
First published: 19 January 2021
 
Abstract
 
TLD1433 is the first Ru(II) complex to be tested as a photodynamic therapy agent in a clinical trial. In this contribution we study TLD1433 in the context of structurallyrelated Ru(II)imidozo[4,5f][1,10]phenanthroline (ip) complexes appended with thiophene rings to decipher the unique photophysical properties which are associated with increasing oligothiophene chain length. Substitution of the ip ligand with ter or quaterthiophene changes the nature of the longlived triplet state from metaltoligand chargetransfer to 3ππ* character. The addition of the third thiophene thus presents a critical juncture which not only determines the photophysics of the complex but most importantly its capacity for O2 generation and hence the potential of the complex to be used as a photocytotoxic agent.
 
Recent developments highlight Ru(II) polypyridyl complexes with πexpanded ligands as a promising class of new compounds for photodynamic therapy (PDT).1-11 By extending the pyridyl ligands with organic chromophores, lowlying intraligand (IL) excited states become accessible, and these appear to be crucial to the photophysical function of these systems.12 Our TLD1433 (Ruip3T in this manuscript, Figure1) is a compound of this type, having three appended thiophene rings, and has the distinction of being the first Ru(II)based PDT agent ever to enter a human clinical trial;1, 10, 13 Ruip3T is currently being tested in a Phase II PDT trial for noninvasive bladder cancer (ClinicalTrials.gov identifier: NCT03945162).



In vitro studies have been previously conducted on the RuipnT series of compounds, where n indicates the number of appended thiophene rings attached to an imidazo[4,5f][1,10]phenanthroline (ip) ligand (Figure1). Visible light illumination of SKMEL28 cancer cells treated with the compounds in the series led to increased photocytotoxicity with increasing n. The light EC50 values (effective concentration to reduce cell viability by 50 %) were 0.72μM, 0.26μM, 1.9×10−4μM and 2.8×10−9μM for Ruip1T to Ruip4T, respectively (Figure2d)1 and the corresponding PI values (ratio of dark to light EC50) were 225, 434, 7.2×105 and 45×109 respectively. While these previous findings demonstrate a clear correlation between the length of the thiophene chain and the invitro phototherapeutic effects, herein we present the key photophysical properties of the compounds in the RuipnT series that could be responsible for the observed photocytotoxicity.

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KUDOS! Thanks for sharing this VERY DETAILED IMPORTANT info!!



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