Tailoring capsid-directed evolution technology for improved AAV-mediated CAR-T generation.

Chimeric antigen receptor (CAR) T cell (CAR-T) therapies present options for patients diagnosed with certain leukemias. Recent advances of the technology included a method to integrate the CAR into the T cell receptor alpha constant (TRAC) locus to take advantage of the endogenous promoter and regulatory elements for CAR expression. This method used adeno-associated viral (AAV) vectors based on AAV6 to deliver the donor template encoding the CAR construct.

Characterization of the humanized FRG mouse model and development of an AAV-LK03 variant with improved liver lobular biodistribution.

Recent clinical successes have intensified interest in using adeno-associated virus (AAV) vectors for therapeutic gene delivery. The liver is a key clinical target, given its critical physiological functions and involvement in a wide range of genetic diseases. In the present study, we first investigated the validity of a liver xenograft mouse model repopulated with primary hepatocytes using single-nucleus RNA sequencing (sn-RNA-seq) by studying the transcriptomic profile of human hepatocytes pre- and post-engraftment.

Antimicrobial Applications of Inclusion Bodies.

A broad number of inclusion bodies (IBs) potential uses, including biocatalysis, biocompatible nanomaterials, and nanopills for biomedicine, have been described so far. Recently, it has also been shown that they can also be used as antimicrobial agents. Here, we describe the protocol used to produce and purify IBs with antimicrobial activity at desirable yields and also an optimized and simple methodology to determine the antimicrobial activity of IBs against bacterial strains.

The future of recombinant host defense peptides.

The antimicrobial resistance crisis calls for the discovery and production of new antimicrobials. Host defense peptides (HDPs) are small proteins with potent antibacterial and immunomodulatory activities that are attractive for translational applications, with several already under clinical trials. Traditionally, antimicrobial peptides have been produced by chemical synthesis, which is expensive and requires the use of toxic reagents, hindering the large-scale development of HDPs.