Abstract
This study successfully developed and validated isoform-specific intrabodies targeting the highly homologous Ral oncoproteins, key effectors in cancer progression. Phage display was used to isolate single-chain variable fragment (scFv) clones that recognize specifically RalA (C1-A, G5-A), RalB (F6-B), or both paralogs (A12-AB). Using lentiviral transduction, these intrabodies were stably expressed as GFP fusions in murine breast cancer 4T1 cells. The anti-RalA clones C1-A and A12-AB demonstrated clear colocalization with RalA, confirming their binding activity inside the cell. We further confirmed their activity in cells by analyzing Ral-dependent pathways. All intrabodies targeting RalA (C1-A, G5-A, A12-AB) but not the one specific to RalB inhibited mitochondrial fission, a known RalA function. All clones, except the pan-Ral one, altered the endo-lysosome pathway by decreasing lysosome number. Furthermore, the RalA-specific C1-A clone reduced lysosomes size, and uniquely and strongly reduced extracellular vesicle secretion, highlighting its distinct inhibitory potential. In an orthotopic Triple-Negative Breast Cancer (TNBC) mouse model, The C1-A RalA specific clone significantly but weakly reduced primary tumor growth, but exerted a powerful anti-metastatic effect, dramatically reducing lung metastases, with a complete abolition of metastases observed in 2/5 mice. In summary, these potent, isoform-specific Ral intrabodies act as effective intracellular inhibitors, successfully modulating RalA-specific functions in cells and offering a promising therapeutic strategy for significantly suppressing tumor growth and metastasis in vivo.
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Abstract
This study successfully developed and validated isoform-specific intrabodies targeting the highly homologous Ral oncoproteins, key effectors in cancer progression. Phage display was used to isolate single-chain variable fragment (scFv) clones that recognize specifically RalA (C1-A, G5-A), RalB (F6-B), or both paralogs (A12-AB). Using lentiviral transduction, these intrabodies were stably expressed as GFP fusions in murine breast cancer 4T1 cells. The anti-RalA clones C1-A and A12-AB demonstrated clear colocalization with RalA, confirming their binding activity inside the cell. We further confirmed their activity in cells by analyzing Ral-dependent pathways. All intrabodies targeting RalA (C1-A, G5-A, A12-AB) but not the one specific to RalB inhibited mitochondrial fission, a known RalA function. All clones, except the pan-Ral one, altered the endo-lysosome pathway by decreasing lysosome number. Furthermore, the RalA-specific C1-A clone reduced lysosomes size, and uniquely and strongly reduced extracellular vesicle secretion, highlighting its distinct inhibitory potential. In an orthotopic Triple-Negative Breast Cancer (TNBC) mouse model, The C1-A RalA specific clone significantly but weakly reduced primary tumor growth, but exerted a powerful anti-metastatic effect, dramatically reducing lung metastases, with a complete abolition of metastases observed in 2/5 mice.
In summary, these potent, isoform-specific Ral intrabodies act as effective intracellular inhibitors, successfully modulating RalA-specific functions in cells and offering a promising therapeutic strategy for significantly suppressing tumor growth and metastasis in vivo.
Competing Interest Statement
The authors have declared no competing interest.
Footnotes
↵† These authors share senior authorship
pierre.martineau{at}inserm.fr, hyenne{at}unistra.fr
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