Cover Feature: Direct Conjugation of Gallium-(III)-Corroles to Short Interfering RNA(siRNA) Providing Real-Time siRNA Imaging and Gene Silencing (ChemPlusChem 6/2024).

Invited for this month's cover is the group of Jean-Paul Desaulniers at Ontario Tech University. The cover picture shows the successful conjugation of a Ga-corrole to an siRNA to enable live cell imaging. Read the full text of the article at 10.

Direct Conjugation of Gallium-(III)-Corroles to Short Interfering RNA(siRNA) Providing Real-Time siRNA Imaging and Gene Silencing.

Discovering new modifications for oligonucleotide therapeutics is essential for expanding its application to new targets and diseases. In this project, we focus on conjugating metaled ligands to short interfering RNAs (siRNAs) to investigate robust and simple conjugation methods for adding new properties such as real-time imaging to the siRNA. Here we report the chemical synthesis of novel Ga-(III)-corroles for their direct conjugation to siRNAs.

Effective carrier-free gene-silencing activity of sphingosine-modified siRNAs.

RNA interference (RNAi) is a natural cellular process that silences the expression of target genes in a sequence-specific way by mediating targeted mRNA degradation. One of the main challenges in RNAi research is developing an effective career-free delivery system and targeting cells in the central nervous system (CNS). Recently, lipid-conjugated systems involving fatty acids have shown promising potential as safe and effective delivery systems of oligonucleotides to CNS cells due to their hydrophobic tails and interactions with the cell's hydrophobic membrane.

SiRNAs with Neutral Phosphate Triester Hydrocarbon Tails Exhibit Carrier-Free Gene-Silencing Activity.

Short interfering RNAs (siRNAs) show promise as gene-silencing therapeutics, but their cellular uptake remains a challenge. We have recently shown the synthesis of siRNAs bearing a single neutral phenylethyl phosphotriester linkage within the sense strand. Here, we report the synthesis of siRNAs bearing three different hydrophobic phosphate triester linkages at key positions within the sense strand and assess their gene silencing in the absence of a transfection carrier.

A dual therapeutic system based on corrole-siRNA conjugates.

Corrole molecules are a new generation of photosensitizers (PS) due to their ease of tunability for different medical applications. Their ability to initiate cellular death using a wide range of non-toxic wavelengths allows for the creation of non-invasive treatments. This work focuses on creating potent and non-invasive treatments by advancing siRNA therapeutics by directly conjugating siRNAs with the photosensitizer, corrole.