Br J Dermatol. 2025 Aug 07. pii: ljaf311. [Epub ahead of print]
Dario Didona,
Christoph Hudemann,
Holger Garn,
Daria Krzikalla,
Shu-Hung Wang,
Julia Hinterseher,
Karolin Volkmann,
Alexandra Polakova,
Anna Zakrzewicz,
Simon Feldhoff,
Ritva Tikkanen,
Reinaldo Digigow,
Wolfgang Pfützner,
Antonio Santos,
Christine L Zimmer,
Maik Hahmann,
Susanne Harnisch,
Siegfried Rösch,
Sandra Huguenin,
Rüdiger Eming,
Matthias Hahn,
Franziska Schauer,
Emiliano Antiga,
Stefano Senatore,
Roberto Maglie,
Jörg Täubel,
Kamran Ghoreschi,
Katharina Meier,
Farzan Solimani,
Michael Sticherling,
Lukas Sollfrank,
Claudia Günther,
Kerstin Steinbrink,
Nina Magnolo,
Erno van Schaick,
Veronica Asnaghi,
Frank S Zollmann,
Johannes Pohlner,
Julia Hummel,
Rupert Sandbrink,
Cristina de Min,
Sabine Fleischer,
Christian Möbs,
Michael Hertl.
BACKGROUND: Pemphigus vulgaris (PV) is a CD4+ T cell-dependent, autoantibody-mediated blistering disease associated with human leukocyte antigen class II molecules. IgG autoantibodies against the primary autoantigen desmoglein 3 (Dsg3), a desmosomal adhesion protein on epidermal keratinocytes, cause loss of epidermal cell adhesion.
OBJECTIVE: To assess the clinical applicability of an innovative nanoparticle platform for the induction of immune tolerance exploiting the natural tolerance potential of liver sinusoidal endothelial cells. An open-label first-in-human study was conducted with TPM203, a mixture of four nanoparticle-coupled immunodominant Dsg3 T-cell peptides.
METHODS: Efficacy and mechanism of action of TPM203 were first tested in a humanized HLA-DRB1*0402-transgenic PV mouse model. In the clinical phase 1 trial, TPM203 was administered intravenously in PV patients with no-to-moderate disease activity in single ascending and multiple doses (three doses of TPM203 two weeks apart). Primary endpoints included safety and tolerability. As a secondary endpoint, pharmacokinetics was assessed. Exploratory endpoints comprised changes in Dsg3-specific and bulk T- and B-cell frequencies, anti-Dsg3 IgG levels, and autoantibody-induced keratinocyte dissociation.
RESULTS: In the PV mouse model, two administrations of TPM203 significantly reduced anti-Dsg3 IgG. On the cellular level, TPM203 led to a significant decrease in CD4+ T cells in the spleen, accompanied by increased frequencies of regulatory T (Treg) cells. In the clinical trial, the 17 PV patients enrolled across single- and multiple-dose groups did not experience any serious or severe adverse events, or treatment-related PV worsening. Pharmacokinetics confirmed rapid TPM203 clearance from circulation. Significant TPM203-induced modulations in bulk lymphocyte subsets included an increase in Treg cells, and reductions in T helper 17.1 and CD27+ memory B cells, when dose groups were combined for analysis. Dsg3-specific T cells were found significantly reduced at week 8 following single administration of TPM203. Anti-Dsg3 IgG levels trended downward in the three lower single ascending dose groups, while IgG-induced keratinocyte-dissociating capacity was significantly reduced after multiple doses.
CONCLUSIONS: Administered for the first time in humans, TPM203 was shown as a safe and well-tolerated nanoparticle-based therapeutic approach with the potential to promote tolerance induction in PV, justifying further clinical development in PV and other autoimmune diseases (EudraCT:2019-001727-12).