Abstract
T cells are key immune cells involved in the pathogenesis of several diseases, rendering them important therapeutic targets. Although drug delivery to T cells is the subject of continuous research, it remains challenging to deliver drugs to primary T cells. Here, we used a peptide-based drug delivery system, AP, which was previously developed as a transdermal delivery peptide, to modulate T cell function. We first identified that AP-conjugated enhanced green fluorescent protein (EGFP) was efficiently delivered to non-phagocytic human T cells. We also confirmed that a nine-amino acid sequence with one cysteine residue was the optimal sequence for protein delivery to T cells. Next, we identified the biodistribution of AP-dTomato protein in vivo after systemic administration, and transduced it to various tissues, such as the spleen, liver, intestines, and even to the brain across the blood–brain barrier. Next, to confirm AP-based T cell regulation, we synthesized the AP-conjugated cytoplasmic domain of CTLA-4, AP-ctCTLA-4 peptide. AP-ctCTLA-4 reduced IL-17A expression under Th17 differentiation conditions in vitro and ameliorated experimental autoimmune encephalomyelitis, with decreased numbers of pathogenic IL-17A+GM-CSF+ CD4 T cells. These results collectively suggest the AP peptide can be used for the successful intracellular regulation of T cell function, especially in the CNS.
Highlights
Published: 25 July 2021The human immune system is indispensable for defending the body against various pathogens, maintaining health, and maintaining immune homeostasis [1]
We mainly focused on the delivery efficiency of AP to skin tissue and cells for the treatment of dermatitis [20], whether it is delivered to T cells or other organs by systemic administration has not been well described
To identify the delivery efficiency to T cells, which are difficult to deliver drugs to, we treated human peripheral blood mononuclear cells with AP-enhanced green fluorescent protein (EGFP), which is mainly composed of B cells and T cells, and analyzed intracellular EGFP fluorescence by flow cytometry
Summary
Published: 25 July 2021The human immune system is indispensable for defending the body against various pathogens, maintaining health, and maintaining immune homeostasis [1]. Various types of T cells circulate or reside in the body and play an important role in the adaptive immune system [2]. Diseases, such as autoimmune diseases, can develop when the immune homeostasis is disrupted, and T cells attack the body by recognizing self-antigens [3]. Tcell modulation is important for controlling diseases, such as allergic diseases [5], autoimmune diseases [6], and cancer [7]. Many attempts have been made to modulate the function of T cells, most of these approaches have been limited to extracellular targets because of the characteristics of antibodies [8,9]. There are numerous molecules inside the cellular environment which could serve as potential targets [10,11,12], only small-molecule drugs are available to effectively target intracellular molecules [13]
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