# CD38-specific nanobody-based bispecific antibody recruiters (BARs) redirect complement-dependent cytotoxicity toward multiple myeloma cells

**Authors:** Luca Julius Pape, Anna Josephine Gebhardt, Marten Dannenberg, Henry Risch, Anya Duttmann, Katja Weisel, Julia Hambach, Friedrich Koch-Nolte, Peter Bannas

PMC · DOI: 10.1038/s41598-025-25194-y · 2025-11-18

## TL;DR

Researchers developed a new type of immunotherapy using nanobodies to target and destroy multiple myeloma cells by redirecting the immune system's complement-dependent cytotoxicity.

## Contribution

The study introduces CD38-specific nanobody-based BARs as a novel approach for multiple myeloma therapy.

## Key findings

- Three CD38-specific BARs (E1-BAR, E2-BAR, E3-BAR) were developed and showed strong binding to CD38 and IgGκ.
- E1-BAR significantly reduced patient-derived myeloma cell viability in vitro.
- BARs demonstrated increased half-life in vivo due to IgGκ binding.

## Abstract

Bispecific antibody recruiters (BARs) are an innovative class of immunotherapeutics that redirect endogenous antibodies to tumor cells. BARs comprise a tumor-binding and an antibody-binding module, enabling endogenous antibodies to opsonize tumor cells and induce FC-dependent effector functions such as complement-dependent cytotoxicity (CDC). CD38 is a validated target for myeloma therapy, as evidenced by the success of CD38-specific monoclonal antibodies daratumumab and isatuximab. Nanobodies are single variable immunoglobulin domains derived from camelid heavy chain antibodies. Here, we report the generation of nanobody-based BARs recognizing CD38 and assess their cytotoxicity against CD38-expressing myeloma cells in vitro and ex vivo. We constructed three CD38-specific BARs recognizing distinct, non-overlapping CD38 epitopes (E1-BAR, E2-BAR, and E3-BAR) by genetically fusing CD38-specific nanobodies to a human immunoglobulin κ light chain-specific nanobody. All BARs exhibited simultaneous binding to CD38 and IgGκ. Nonlinear regression revealed EC50 values of 0.73 nM (E1-BAR), 0.21 nM (E2-BAR), and 0.97 nM (E3-BAR). In patient-derived myeloma cells, E1-BAR reduced viability to 29 ± 18%, while E2-BAR and E3-BAR achieved 62 ± 49% and 57 ± 41%, respectively. In vivo, BAR half-life was markedly increased by IgGκ binding. Our results demonstrate the feasibility of CD38-specific nanobody-based BARs as therapeutics for multiple myeloma.

The online version contains supplementary material available at 10.1038/s41598-025-25194-y.

## Linked entities

- **Proteins:** CD38 (CD38 molecule)
- **Diseases:** multiple myeloma (MONDO:0009693)

## Full-text entities

- **Genes:** CD38 (CD38 molecule) [NCBI Gene 952] {aka ADPRC 1, ADPRC1, cADPR1}
- **Diseases:** myeloma (MESH:D009101)

## Figures

6 figures with captions in the complete paper: https://tomesphere.com/paper/PMC12627525/full.md

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Source: https://tomesphere.com/paper/PMC12627525