Roseltide rT7 is a disulfide-rich, anionic, and cell-penetrating peptide that inhibits proteasomal degradation
Disulfide-rich plant peptides with molecular masses of 2-6 kDa represent an expanding class of peptidyl-type natural products with diverse functions. They are structurally compact, hyperstable, and underexplored as cell-penetrating agents that inhibit intracellular functions. Here, we report the dis...
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sg-ntu-dr.10356-1612632023-02-28T17:13:50Z Roseltide rT7 is a disulfide-rich, anionic, and cell-penetrating peptide that inhibits proteasomal degradation Kam, Antony Loo, Shining Fan, Jing-Song Sze, Siu Kwan Yang, Daiwen Tam, James P. School of Biological Sciences Science::Biological sciences Proteasome Cell-Penetrating Peptide Disulfide-rich plant peptides with molecular masses of 2-6 kDa represent an expanding class of peptidyl-type natural products with diverse functions. They are structurally compact, hyperstable, and underexplored as cell-penetrating agents that inhibit intracellular functions. Here, we report the discovery of an anionic, 34-residue peptide, the disulfide-rich roseltide rT7 from Hibiscus sabdariffa (of the Malvaceae family) that penetrates cells and inhibits their proteasomal activities. Combined proteomics and NMR spectroscopy revealed that roseltide rT7 is a cystine-knotted, six-cysteine hevein-like cysteine-rich peptide. A pair-wise comparison indicated that roseltide rT7 is >100-fold more stable against protease degradation than its S-alkylated analog. Confocal microscopy studies and cell-based assays disclosed that after roseltide rT7 penetrates cells, it causes accumulation of ubiquitinated proteins, inhibits human 20S proteasomes, reduces tumor necrosis factor-induced IκBα degradation, and decreases expression levels of intercellular adhesion molecule-1. Structure-activity studies revealed that roseltide rT7 uses a canonical substrate-binding mechanism for proteasomal inhibition enabled by an IIML motif embedded in its proline-rich and exceptionally long intercysteine loop 4. Taken together, our results provide mechanistic insights into a novel disulfide-rich, anionic, and cell-penetrating peptide, representing a potential lead for further development as a proteasomal inhibitor in anti-cancer or anti-inflammatory therapies. Ministry of Education (MOE) Nanyang Technological University Published version This work was supported in part by Nanyang Technological University Internal Funding–Synzymes and Natural Products (SYNC) and AcRF Tier 3 funding Grant MOE2016-T3-1-003 2022-08-23T01:53:41Z 2022-08-23T01:53:41Z 2019 Journal Article Kam, A., Loo, S., Fan, J., Sze, S. K., Yang, D. & Tam, J. P. (2019). Roseltide rT7 is a disulfide-rich, anionic, and cell-penetrating peptide that inhibits proteasomal degradation. Journal of Biological Chemistry, 294(51), 19604-19615. https://dx.doi.org/10.1074/jbc.RA119.010796 0021-9258 https://hdl.handle.net/10356/161263 10.1074/jbc.RA119.010796 31727740 2-s2.0-85077016711 51 294 19604 19615 en MOE2016-T3-1-003 Journal of Biological Chemistry © 2019 Kam et al. Published under exclusive license by The American Society for Biochemistry and Molecular Biology, Inc. This is an open access article under the CC BY license. application/pdf |
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Science::Biological sciences Proteasome Cell-Penetrating Peptide Kam, Antony Loo, Shining Fan, Jing-Song Sze, Siu Kwan Yang, Daiwen Tam, James P. Roseltide rT7 is a disulfide-rich, anionic, and cell-penetrating peptide that inhibits proteasomal degradation |
| description |
Disulfide-rich plant peptides with molecular masses of 2-6 kDa represent an expanding class of peptidyl-type natural products with diverse functions. They are structurally compact, hyperstable, and underexplored as cell-penetrating agents that inhibit intracellular functions. Here, we report the discovery of an anionic, 34-residue peptide, the disulfide-rich roseltide rT7 from Hibiscus sabdariffa (of the Malvaceae family) that penetrates cells and inhibits their proteasomal activities. Combined proteomics and NMR spectroscopy revealed that roseltide rT7 is a cystine-knotted, six-cysteine hevein-like cysteine-rich peptide. A pair-wise comparison indicated that roseltide rT7 is >100-fold more stable against protease degradation than its S-alkylated analog. Confocal microscopy studies and cell-based assays disclosed that after roseltide rT7 penetrates cells, it causes accumulation of ubiquitinated proteins, inhibits human 20S proteasomes, reduces tumor necrosis factor-induced IκBα degradation, and decreases expression levels of intercellular adhesion molecule-1. Structure-activity studies revealed that roseltide rT7 uses a canonical substrate-binding mechanism for proteasomal inhibition enabled by an IIML motif embedded in its proline-rich and exceptionally long intercysteine loop 4. Taken together, our results provide mechanistic insights into a novel disulfide-rich, anionic, and cell-penetrating peptide, representing a potential lead for further development as a proteasomal inhibitor in anti-cancer or anti-inflammatory therapies. |
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School of Biological Sciences |
| author_facet |
School of Biological Sciences Kam, Antony Loo, Shining Fan, Jing-Song Sze, Siu Kwan Yang, Daiwen Tam, James P. |
| format |
Article |
| author |
Kam, Antony Loo, Shining Fan, Jing-Song Sze, Siu Kwan Yang, Daiwen Tam, James P. |
| author_sort |
Kam, Antony |
| title |
Roseltide rT7 is a disulfide-rich, anionic, and cell-penetrating peptide that inhibits proteasomal degradation |
| title_short |
Roseltide rT7 is a disulfide-rich, anionic, and cell-penetrating peptide that inhibits proteasomal degradation |
| title_full |
Roseltide rT7 is a disulfide-rich, anionic, and cell-penetrating peptide that inhibits proteasomal degradation |
| title_fullStr |
Roseltide rT7 is a disulfide-rich, anionic, and cell-penetrating peptide that inhibits proteasomal degradation |
| title_full_unstemmed |
Roseltide rT7 is a disulfide-rich, anionic, and cell-penetrating peptide that inhibits proteasomal degradation |
| title_sort |
roseltide rt7 is a disulfide-rich, anionic, and cell-penetrating peptide that inhibits proteasomal degradation |
| publishDate |
2022 |
| url |
https://hdl.handle.net/10356/161263 |
| _version_ |
1759854204774514688 |