Abstract
Type 1 diabetes and thyroid disease are T cell-dependent autoimmune endocrinopathies. The standard substitutive administration of the deficient hormones does not halt the autoimmune process; therefore, development of immunotherapies aiming to preserve the residual hormonal cells, is of crucial importance. PTPN22 C1858T mutation encoding for the R620W lymphoid tyrosine phosphatase variant, plays a potential pathophysiological role in autoimmunity. The PTPN22 encoded protein Lyp is a negative regulator of T cell antigen receptor signaling; R620W variant, leading to a gain of function with paradoxical reduced T cell activation, may represent a valid therapeutic target. We aimed to develop novel wild type PTPN22 short interfering RNA duplexes (siRNA) and optimize their delivery into Jurkat T cells and PBMC by using liposomal carriers. Conformational stability, size and polydispersion of siRNA in lipoplexes was measured by CD spectroscopy and DLS. Lipoplexes internalization and toxicity evaluation was assessed by confocal microscopy and flow cytometry analysis. Their effect on Lyp expression was evaluated by means of Western Blot and confocal microscopy. Functional assays through engagement of TCR signaling were established to evaluate biological consequences of down-modulation. Both Jurkat T cells and PBMC were efficiently transfected by stable custom lipoplexes. Jurkat T cell morphology and proliferation was not affected. Lipoplexes incorporation was visualized in CD3+ but also in CD3- peripheral blood immunotypes without signs of toxicity, damage or apoptosis. Efficacy in affecting Lyp protein expression was demonstrated in both transfected Jurkat T cells and PBMC. Moreover, impairment of Lyp inhibitory activity was revealed by increase of IL-2 secretion in culture supernatants of PBMC following anti-CD3/CD28 T cell receptor-driven stimulation. The results of our study open the pathway to future trials for the treatment of autoimmune diseases based on the selective inhibition of variant PTPN22 allele using lipoplexes of siRNA antisense oligomers.
Highlights
Autoimmune thyroid diseases (ATD) [1,2] and insulin-dependent diabetes mellitus (Type 1 diabetes, T1DM) [3] are due to target cell destruction by autoreactive T lymphocytes [4]
Particular interest was generated by the potential pathophysiological role played in several autoimmune conditions including T1DM and autoimmune polyglandular syndrome Type 3 variant (APS3v) [13] by the PTPN22 C1858T mutation, which changes amino acid residue 620 from Arg (R) to Trp (W) (R620W) in the lymphoid tyrosine phosphatase Lyp protein
The electrostatic interactions with cationic liposomes reduce the intensity of both the bands at about 265 and 240 nm. These results suggest that the association between liposomes and short interfering RNA duplexes (siRNA) causes prevalent changes in the base pair stacking without consistent structural modification of the backbone
Summary
Autoimmune thyroid diseases (ATD) [1,2] and insulin-dependent diabetes mellitus (Type 1 diabetes, T1DM) [3] are due to target cell destruction by autoreactive T lymphocytes [4]. Particular interest was generated by the potential pathophysiological role played in several autoimmune conditions including T1DM and APS3v [13] by the PTPN22 (protein tyrosine phosphatase N22 gene) C1858T mutation, which changes amino acid residue 620 from Arg (R) to Trp (W) (R620W) in the lymphoid tyrosine phosphatase Lyp protein. This is a negative regulator of T cell antigen receptor (TCR) signaling, acting in concert with C-terminal Src kinase (CSK). In the light of this, LypR620W may be a valid drug target for the treatment of T1DM and APS3v patients
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