Enhancing brain entry and therapeutic activity of chimeric antigen receptor T cells with intra-arterial NEO100 in a mouse model of CNS lymphoma.

Objective: Malignancies of the CNS are difficult to treat because the blood-brain barrier (BBB) prevents most therapeutics from reaching the intracranial lesions at sufficiently high concentrations. This also applies to chimeric antigen receptor (CAR) T cells, for which systemic delivery is inferior to direct intratumoral or intraventricular injection of the cells. The authors previously reported on a novel approach to safely and reversibly open the BBB of mice by applying intra-arterial (IA) injections of NEO100, a pharmaceutical-grade version of the natural monoterpene perillyl alcohol.

Spatio-temporal biodistribution of Zr-oxine labeled huLym-1-A-BB3z-CAR T-cells by PET imaging in a preclinical tumor model.

Quantitative in vivo monitoring of cell biodistribution offers assessment of treatment efficacy in real-time and can provide guidance for further optimization of chimeric antigen receptor (CAR) modified cell therapy. We evaluated the utility of a non-invasive, serial Zr-oxine PET imaging to assess optimal dosing for huLym-1-A-BB3z-CAR T-cell directed to Lym-1-positive Raji lymphoma xenograft in NOD Scid-IL2Rgamma (NSG) mice. In vitro experiments showed no detrimental effects in cell health and function following Zr-oxine labeling.

Brain Disposition of Antibody-Based Therapeutics: Dogma, Approaches and Perspectives.

Due to their high specificity, monoclonal antibodies have been widely investigated for their application in drug delivery to the central nervous system (CNS) for the treatment of neurological diseases such as stroke, Alzheimer's, and Parkinson's disease. Research in the past few decades has revealed that one of the biggest challenges in the development of antibodies for drug delivery to the CNS is the presence of blood-brain barrier (BBB), which acts to restrict drug delivery and contributes to the limited uptake (0.1-0.

Principles of -Linked Glycosylation Variations of IgG-Based Therapeutics: Pharmacokinetic and Functional Considerations.

The development of recombinant therapeutic proteins has been a major revolution in modern medicine. Therapeutic-based monoclonal antibodies (mAbs) are growing rapidly, providing a potential class of human pharmaceuticals that can improve the management of cancer, autoimmune diseases, and other conditions. Most mAbs are typically of the immunoglobulin G (IgG) subclass, and they are glycosylated at the conserved asparagine position 297 (Asn-297) in the CH2 domain of the Fc region.

A Humanized Lym-1 CAR with Novel DAP10/DAP12 Signaling Domains Demonstrates Reduced Tonic Signaling and Increased Antitumor Activity in B-Cell Lymphoma Models.

Purpose: The murine Lym-1 mAb targets a discontinuous epitope (Lym-1 epitope) on several subtypes of HLA-DR, which is upregulated in a majority of human B-cell lymphomas and leukemias. Unlike CD19, the Lym-1 epitope does not downregulate upon crosslinking, which may provide an advantage as a target for CAR T-cell therapy. Lym-1 CAR T cells with a conventional 4-1BB and CD3ζ (BB3z) signaling domain exhibited impaired expansion.