New multiple myeloma therapy shows promise in preclinical study

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A new alpha-radioimmunotherapy, 212Pb-anti-CD38, has proven effective in preventing tumour growth and increasing survival in multiple myeloma tumour-bearing mice, according to new research published in the Journal of Nuclear Medicine.

Given the long half-life, central production and worldwide distribution of 212Pb-anti-CD38, researchers have determined that the α-radioimmunotherapy is not only effective but also clinically feasible as a multiple myeloma treatment.

Multiple myeloma is a plasma cell cancer that occurs in bone marrow.

It is the second most common type of blood cancer, with more than 32,000 new cases projected in 2020, according to the American Cancer Society.

Despite new treatments and protocols, the prognosis of multiple myeloma patients remains poor, as remission is often followed by relapse.

Innovative therapies with a distinct mechanism of action are therefore needed.

“Targeted radioimmunotherapy using antibodies against proteins expressed at the cell membrane on tumoural cells has already shown efficacy with beta-emitters, but with severe side effects,” said Isabelle Quelven-Bertin, PharmD, radiopharmacist at Limoges University Hospital in Limoges, France. “Using alpha particles is very attractive because their much shorter path-length reduces unwanted radiation exposure on normal tissues, thereby reducing side effects. As such, we investigated the potential of the α-radioimmunotherapy 212Pb-anti-CD38 in the treatment of multiple myeloma.”

In the study, researchers developed human myeloma cell lines, which were analysed for cell proliferation after incubation with various concentrations of 212Pb monoclonal antibodies.

Mice received subcutaneous grafts of human myeloma cell lines and were injected with 212Pb-anti-CD38, 212Pb-anti-mCD38 (mice-specific) or 212Pb-isotypic control.

Biodistribution, toxicity and dose-range-finding studies were performed, as well as radioimmunotherapy experiments that measured tumour volume and overall survival.

The human myeloma cell line saw a significant inhibition of cell proliferation three days after incubation with 212Pb-anti-CD38.

Likewise, the mouse model showed marked inhibition of cell proliferation for mice treated with 212Pb-anti-CD38, with a median survival of 55 days; mice that received the isotypic control had a median survival of 11 days.

Biodistribution studies showed a specific tumoural accumulation of 212Pb-anti-CD38, and toxicity experiments with 212Pb-anti-mCD38 established a toxic activity of 277.5 kBq.

While 212Pb monoclonal antibodies effectively inhibited tumour growth and increased survival, whole-body SPECT/CT imaging was not possible due to the low 212Pb activity injected and the detection sensitivity.

Instead, researchers performed SPECT/CT imaging with 203Pb, a chemically identical radiometal.

“This radioelement allowed us to consider a theranostic approach for 212Pb α-radioimmunotherapy, preventing the need for a radionuclide with different physical-chemical properties that would likely result in different pharmacokinetics. Combining therapy and imaging could provide an effective approach to optimizing therapeutic doses using specific dosimetry calculation and to monitoring the patient’s response. Moving forward, this could be considered as an innovative theranostic approach,” noted Michel Cogné, MD, PhD, professor of immunology at Limoges Medical School in Limoges, France.

Source: Society of Nuclear Medicine and Molecular Imaging


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