Knowledge about the mechanism of action (MoA) of monoclonal antibodies (mAb) is required to understand which patients with multiple myeloma (MM) benefit the most from a given mAb, alone or in ...combination therapy. Although there is considerable research about daratumumab, knowledge about other anti-CD38 mAbs remains scarce.
We performed a comprehensive analysis of the MoA of isatuximab.
Isatuximab induces internalization of CD38 but not its significant release from MM cell surface. In addition, we uncovered an association between levels of CD38 expression and different MoA: (i) Isatuximab was unable to induce direct apoptosis on MM cells with CD38 levels closer to those in patients with MM, (ii) isatuximab sensitized CD38
MM cells to bortezomib plus dexamethasone in the presence of stroma, (iii) antibody-dependent cellular cytotoxicity (ADCC) was triggered by CD38
and CD38
tumor plasma cells (PC), (iv) antibody-dependent cellular phagocytosis (ADCP) was triggered only by CD38
MM cells, whereas (v) complement-dependent cytotoxicity could be triggered in less than half of the patient samples (those with elevated levels of CD38). Furthermore, we showed that isatuximab depletes CD38
B-lymphocyte precursors and natural killer (NK) lymphocytes
-the latter through activation followed by exhaustion and eventually phagocytosis.
This study provides a framework to understand response determinants in patients treated with isatuximab based on the number of MoA triggered by CD38 levels of expression, and for the design of effective combinations aimed at capitalizing disrupted tumor-stroma cell protection, augmenting NK lymphocyte-mediated ADCC, or facilitating ADCP in CD38
MM patients.
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The reason why a few myeloma cells egress from the bone marrow (BM) into peripheral blood (PB) remains unknown. Here, we investigated molecular hallmarks of circulating tumor cells (CTCs) to identify ...the events leading to myeloma trafficking into the bloodstream. After using next-generation flow to isolate matched CTCs and BM tumor cells from 32 patients, we found high correlation in gene expression at single-cell and bulk levels (r ≥ 0.94, P = 10
), with only 55 genes differentially expressed between CTCs and BM tumor cells. CTCs overexpressed genes involved in inflammation, hypoxia, or epithelial-mesenchymal transition, whereas genes related with proliferation were downregulated in CTCs. The cancer stem cell marker CD44 was overexpressed in CTCs, and its knockdown significantly reduced migration of MM cells towards SDF1-α and their adhesion to fibronectin. Approximately half (29/55) of genes differentially expressed in CTCs were prognostic in patients with newly-diagnosed myeloma (n = 553; CoMMpass). In a multivariate analysis including the R-ISS, overexpression of CENPF and LGALS1 was significantly associated with inferior survival. Altogether, these results help understanding the presence of CTCs in PB and suggest that hypoxic BM niches together with a pro-inflammatory microenvironment induce an arrest in proliferation, forcing tumor cells to circulate in PB and seek other BM niches to continue growing.
Light chain (AL) amyloidosis is caused by a small B-cell clone producing light chains that form amyloid deposits and cause organ dysfunction. Chemotherapy aims at suppressing the production of the ...toxic light chain (LC) and restore organ function. However, even complete hematologic response (CR), defined as negative serum and urine immunofixation and normalized free LC ratio, does not always translate into organ response. Next-generation flow (NGF) cytometry is used to detect minimal residual disease (MRD) in multiple myeloma. We evaluated MRD by NGF in 92 AL amyloidosis patients in CR. Fifty-four percent had persistent MRD (median 0.03% abnormal plasma cells). There were no differences in baseline clinical variables in patients with or without detectable MRD. Undetectable MRD was associated with higher rates of renal (90% vs 62%, p = 0.006) and cardiac response (95% vs 75%, p = 0.023). Hematologic progression was more frequent in MRD positive (0 vs 25% at 1 year, p = 0.001). Altogether, NGF can detect MRD in approximately half the AL amyloidosis patients in CR, and persistent MRD can explain persistent organ dysfunction. Thus, this study supports testing MRD in CR patients, especially if not accompanied by organ response. In case MRD persists, further treatment could be considered, carefully balancing residual organ damage, patient frailty, and possible toxicity.
Alpha-synuclein (aSyn) protein levels are sufficient to drive Parkinson's disease (PD) and other synucleinopathies. Despite the biomedical/therapeutic potential of aSyn protein regulation, little is ...known about mechanisms that limit/control aSyn levels. Here, we investigate the role of a post-translational modification, N-terminal acetylation, in aSyn neurotoxicity. N-terminal acetylation occurs in all aSyn molecules and has been proposed to determine its lipid binding and aggregation capacities; however, its effect in aSyn stability/neurotoxicity has not been evaluated. We generated N-terminal mutants that alter or block physiological aSyn N-terminal acetylation in wild-type or pathological mutant E46K aSyn versions and confirmed N-terminal acetylation status by mass spectrometry. By optical pulse-labeling in living primary neurons we documented a reduced half-life and accumulation of aSyn N-terminal mutants. To analyze the effect of N-terminal acetylation mutants in neuronal toxicity we took advantage of a neuronal model where aSyn toxicity was scored by longitudinal survival analysis. Salient features of aSyn neurotoxicity were previously investigated with this approach. aSyn-dependent neuronal death was recapitulated either by higher aSyn protein levels in the case of WT aSyn, or by the combined effect of protein levels and enhanced neurotoxicity conveyed by the E46K mutation. aSyn N-terminal mutations decreased E46K aSyn-dependent neuronal death both by reducing protein levels and, importantly, by reducing the intrinsic E46K aSyn toxicity, being the D2P mutant the least toxic. Together, our results illustrate that the N-terminus determines, most likely through its acetylation, aSyn protein levels and toxicity, identifying this modification as a potential therapeutic target.
•A longitudinal neuronal model scores aSyn toxicity due to protein levels/mutations.•The aSyn amino terminal end determines protein stability and neurotoxicity.•Blocking N-terminal acetylation decreases toxicity of a pathological aSyn allele.
Protein N-terminal acetylation (Nt-acetylation) is an important mediator of protein function, stability, sorting, and localization. Although the responsible enzymes are thought to be fairly well ...characterized, the lack of identified in vivo substrates, the occurrence of Nt-acetylation substrates displaying yet uncharacterized N-terminal acetyltransferase (NAT) specificities, and emerging evidence of posttranslational Nt-acetylation, necessitate the use of genetic models and quantitative proteomics. NatB, which targets Met-Glu-, Met-Asp-, and Met-Asn-starting protein N termini, is presumed to Nt-acetylate 15% of all yeast and 18% of all human proteins. We here report on the evolutionary traits of NatB from yeast to human and demonstrate that ectopically expressed hNatB in a yNatB-Δ yeast strain partially complements the natB -Δ phenotypes and partially restores the yNatB Nt-acetylome. Overall, combining quantitative N-terminomics with yeast studies and knockdown of hNatB in human cell lines, led to the unambiguous identification of 180 human and 110 yeast NatB substrates. Interestingly, these substrates included Met-Gln- N-termini, which are thus now classified as in vivo NatB substrates. We also demonstrate the requirement of hNatB activity for maintaining the structure and function of actomyosin fibers and for proper cellular migration. In addition, expression of tropomyosin-1 restored the altered focal adhesions and cellular migration defects observed in hNatB-depleted HeLa cells, indicative for the conserved link between NatB, tropomyosin, and actin cable function from yeast to human.
Actin stress fibers (SFs) detect and transmit forces to the extracellular matrix through focal adhesions (FAs), and molecules in this pathway determine cellular behavior. Here, we designed two ...different computational tools to quantify actin SFs and the distribution of actin cytoskeletal proteins within a normalized cellular morphology. Moreover, a systematic cell response comparison between the control cells and those with impaired actin cytoskeleton polymerization was performed to demonstrate the reliability of the tools. Indeed, a variety of proteins that were present within the string beginning at the focal adhesions (vinculin) up to the actin SFs contraction (non-muscle myosin II (NMMII)) were analyzed. Finally, the software used allows for the quantification of the SFs based on the relative positions of FAs. Therefore, it provides a better insight into the cell mechanics and broadens the knowledge of the nature of SFs.
Protein lifespan is regulated by co-translational modification by several enzymes, including methionine aminopeptidases and N-alpha-aminoterminal acetyltransferases. The NatB enzymatic complex is an ...N-terminal acetyltransferase constituted by two subunits, NAA20 and NAA25, whose interaction is necessary to avoid NAA20 catalytic subunit degradation. We found that deletion of the first five amino acids of hNAA20 or fusion of a peptide to its amino terminal end abolishes its interaction with hNAA25. Substitution of the second residue of hNAA20 with amino acids with small, uncharged side-chains allows NatB enzymatic complex formation. However, replacement by residues with large or charged side-chains interferes with its hNAA25 interaction, limiting functional NatB complex formation. Comparison of NAA20 eukaryotic sequences showed that the residue following the initial methionine, an amino acid with a small uncharged side-chain, has been evolutionarily conserved. We have confirmed the relevance of second amino acid characteristics of NAA20 in NatB enzymatic complex formation in Drosophila melanogaster. Moreover, we have evidenced the significance of NAA20 second residue in Saccharomyces cerevisiae using different NAA20 versions to reconstitute NatB formation in a yNAA20-KO yeast strain. The requirement in humans and in fruit flies of an amino acid with a small uncharged side-chain following the initial methionine of NAA20 suggests that methionine aminopeptidase action may be necessary for the NAA20 and NAA25 interaction. We showed that inhibition of MetAP2 expression blocked hNatB enzymatic complex formation by retaining the initial methionine of NAA20. Therefore, NatB-mediated protein N-terminal acetylation is dependent on methionine aminopeptidase, providing a regulatory mechanism for protein N-terminal maturation.
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•First residue of 15–20% of the mammalian proteome is cotranslational acetylated by NatB.•NatB catalytic subunit initial methionine removal dictates enzymatic complex formation.•NatB complex formation licensing has been evolutionary conserved.•MetAP2 activity can regulate NatB mediated protein N-terminal acetylation.
Background: Despite great advances in the treatment of RRMM, including anti-CD38 mAbs, patients become resistant and therapeutic options are limited. Some factors involved in resistance to anti-CD38 ...mAbs have been described. On the one hand, their efficacy is partially dependent on baseline CD38 expression in MM plasma cells (MMPC), but the treatment induces a rapid and sustained CD38 downregulation. On the other hand, their tumor-killing activity relies on NK cells, but its frequency rapidly decreases following initiation of treatment, and persistent NK cells exhibit a dysfunctional phenotype. Given the reduction of CD38 levels in MMPC and the impaired NK-cell activity in resistance to anti-CD38 mAbs, we hypothesized that RRMM patients previously treated with these agents could benefit from T-cell-based immunotherapeutic strategies that depend less on CD38 antigen density and NK cell function. Aim: Evaluate a CD38/CD28xCD3 trispecific TCE (SAR442257) as a potential therapeutic agent in the RRMM setting. Results: CD38 expression in MMPC and NK-cell frequency in bone marrow were significantly reduced in 29 RRMM patients previously exposed to anti-CD38 mAbs vs 45 newly-diagnosed MM (NDMM) patients ( P <.001 and P =.013, respectively). Moreover, the percentage of CD57+ NK cells was significantly lower in RRMM than NDMM patients ( P =.006), suggesting that both CD38 downregulation and a contraction of cytotoxic NK cells may be associated with resistance to anti-CD38 mAbs. By contrast, T cells did not change significantly between stages, which ignited further interest in the preclinical efficacy of the CD38/CD28xCD3 TCE. First, we observed that, contrary to isatuximab and daratumumab, CD38/CD28xCD3 TCE did not reduce surface CD38 levels in the MOLP 8, RPMI 8226 and KMS 12 BM cell lines. Fluorescence microscopy imaging revealed that CD38 was present in cell membrane up to one week of treatment with CD38/CD28xCD3 TCE, while isatuximab induced an internalization of CD38 at 24h. Next, in a co-culture of the OPM-2 cell line with purified T or NK cells from healthy individuals (E:T ratio 2:1), we confirmed that the activity of CD38/CD28xCD3 TCE relied on T but not NK cells. Namely, no direct NK-cell stimulation was found whereas a significant T-cell activation was observed upon CD38/CD28xCD3 TCE treatment. Surprisingly, when OPM-2 were co-cultured with freshly-isolated peripheral blood mononuclear cells (PBMCs, E:T ratio 10:1), CD38/CD28xCD3 TCE induced activation of T- and NK-cells, suggesting a bystander NK-cell activation. This dual stimulation resulted in a significant reduction of OPM-2 cell viability at 48h. Interestingly, we found a comparable tumor-killing activity and T-cell activation in the presence of the CD38 null trispecific isotype (CD3xCD28 ΔCD38) compared with CD38/CD28xCD3 TCE, suggesting that the latter targets CD28 not only in T-cells, but also in OPM-2 cells, which express high CD28 basal levels. Altogether, these data demonstrate the potential dual CD38/CD28 targeting in RRMM patients previously exposed to anti-CD38 mAbs, particularly in those with double positive MMPC. Additionally, CD38 regulation was analyzed in the co-culture system (measured with a non-competing anti-CD38 antibody), and an unaltered and increased CD38 expression was observed in OPM-2 and T-cells, respectively, indicating again T-cell stimulation. We tested the ex vivo efficacy of CD38/CD28xCD3 TCE (48h, 700 pM) in primary bone marrow samples from eight RRMM patients, which were collected after a median of 10 months since the last anti-CD38 treatment (range, 0.5 - 37). T-cell activation and MMPC lysis were found in six and four samples, respectively, which was accompanied by a reduction in the frequency of CD4 T cells (from 100% to 76%; P =.014). A positive and borderline-significant correlation (r = 0.764, P =.057) was found between the response to CD38/CD28xCD3 TCE and the time since last anti-CD38 treatment, and no differences in CD38 expression were observed between CD38/CD28xCD3 TCE responders and non-responders. Conclusions: We observed a reduction in CD38 levels in MMPC and an impaired cytotoxic activity of NK cells in RRMM patients previously exposed to anti-CD38 mAbs. We propose a second targeting of CD38 using T-cell-based immunotherapeutic agents whose efficacy depends less on CD38 antigen density, especially after longer washout periods, as a potential therapeutic strategy in the RRMM setting.
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