Effects of in vivo CXCR4 blockade and proteasome inhibition on bone marrow plasma cells in HLA-sensitized kidney transplant candidates
To date, plasma cell (PC)–targeted therapies have been limited by suboptimal PC depletion and antibody rebound. We hypothesized this is partly because of PC residence in protective bone marrow (BM) microenvironments. The purpose of this proof-of-concept study was to examine the effects of the CXCR4...
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| Veröffentlicht in: | American journal of transplantation 2023-06, Vol.23 (6), p.759-775 |
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| creator | Rossi, Amy P. Tremblay, Simon Castro-Rojas, Cyd M. Burg, Ashley A. Roskin, Krishna M. Gehman, Jenna M. Rike-Shields, Adele Alloway, Rita R. Brailey, Paul Allman, David Hildeman, David A. Woodle, E. Steve |
| description | To date, plasma cell (PC)–targeted therapies have been limited by suboptimal PC depletion and antibody rebound. We hypothesized this is partly because of PC residence in protective bone marrow (BM) microenvironments. The purpose of this proof-of-concept study was to examine the effects of the CXCR4 antagonist, pleri
x
afor, on PC BM residence; its safety profile (alone and in combination with a proteasome inhibitor, bortezomib); and the transcriptional effect on BMPCs in HLA-sensitized kidney transplant candidates. Participants were enrolled into 3 groups: group A (n = 4), pleri
x
afor monotherapy; and groups B (n = 4) and C (n = 4), pleri
x
afor and bortezomib combinations. CD34
+
stem cell and PC levels increased in the blood after pleri
x
afor treatment. PC recovery from BM aspirates varied depending on the dose of pleri
x
afor and bortezomib. Single-cell RNA sequencing on BMPCs from 3 group C participants pretreatment and posttreatment revealed multiple populations of PCs, with a post-treatment enrichment of oxidative phosphorylation, proteasome assembly, cytoplasmic translation, and autophagy-related genes. Murine studies demonstrated dually inhibiting the proteasome and autophagy resulted in greater BMPC death than did monotherapies. In conclusion, this pilot study revealed anticipated effects of combined pleri
x
afor and bortezomib on BMPCs, an acceptable safety profile, and suggests the potential for autophagy inhibitors in desensitization regimens. |
| doi_str_mv | 10.1016/j.ajt.2023.02.022 |
| format | Article |
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x
afor, on PC BM residence; its safety profile (alone and in combination with a proteasome inhibitor, bortezomib); and the transcriptional effect on BMPCs in HLA-sensitized kidney transplant candidates. Participants were enrolled into 3 groups: group A (n = 4), pleri
x
afor monotherapy; and groups B (n = 4) and C (n = 4), pleri
x
afor and bortezomib combinations. CD34
+
stem cell and PC levels increased in the blood after pleri
x
afor treatment. PC recovery from BM aspirates varied depending on the dose of pleri
x
afor and bortezomib. Single-cell RNA sequencing on BMPCs from 3 group C participants pretreatment and posttreatment revealed multiple populations of PCs, with a post-treatment enrichment of oxidative phosphorylation, proteasome assembly, cytoplasmic translation, and autophagy-related genes. Murine studies demonstrated dually inhibiting the proteasome and autophagy resulted in greater BMPC death than did monotherapies. In conclusion, this pilot study revealed anticipated effects of combined pleri
x
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x
afor, on PC BM residence; its safety profile (alone and in combination with a proteasome inhibitor, bortezomib); and the transcriptional effect on BMPCs in HLA-sensitized kidney transplant candidates. Participants were enrolled into 3 groups: group A (n = 4), pleri
x
afor monotherapy; and groups B (n = 4) and C (n = 4), pleri
x
afor and bortezomib combinations. CD34
+
stem cell and PC levels increased in the blood after pleri
x
afor treatment. PC recovery from BM aspirates varied depending on the dose of pleri
x
afor and bortezomib. Single-cell RNA sequencing on BMPCs from 3 group C participants pretreatment and posttreatment revealed multiple populations of PCs, with a post-treatment enrichment of oxidative phosphorylation, proteasome assembly, cytoplasmic translation, and autophagy-related genes. Murine studies demonstrated dually inhibiting the proteasome and autophagy resulted in greater BMPC death than did monotherapies. In conclusion, this pilot study revealed anticipated effects of combined pleri
x
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x
afor, on PC BM residence; its safety profile (alone and in combination with a proteasome inhibitor, bortezomib); and the transcriptional effect on BMPCs in HLA-sensitized kidney transplant candidates. Participants were enrolled into 3 groups: group A (n = 4), pleri
x
afor monotherapy; and groups B (n = 4) and C (n = 4), pleri
x
afor and bortezomib combinations. CD34
+
stem cell and PC levels increased in the blood after pleri
x
afor treatment. PC recovery from BM aspirates varied depending on the dose of pleri
x
afor and bortezomib. Single-cell RNA sequencing on BMPCs from 3 group C participants pretreatment and posttreatment revealed multiple populations of PCs, with a post-treatment enrichment of oxidative phosphorylation, proteasome assembly, cytoplasmic translation, and autophagy-related genes. Murine studies demonstrated dually inhibiting the proteasome and autophagy resulted in greater BMPC death than did monotherapies. In conclusion, this pilot study revealed anticipated effects of combined pleri
x
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| source | Elektronische Zeitschriftenbibliothek - Frei zugängliche E-Journals; Alma/SFX Local Collection |
| title | Effects of in vivo CXCR4 blockade and proteasome inhibition on bone marrow plasma cells in HLA-sensitized kidney transplant candidates |
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