Gilad Goldhirsh scite author profile

Gilad Goldhirsh

3Publications

30Citation Statements Received

78Citation Statements Given

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Technion – Israel Institute of Technology

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Excess of the NF-ĸB p50 subunit generated by the ubiquitin ligase KPC1 suppresses tumors via PD-L1– and chemokines-mediated mechanisms

Kravtsova‐Ivantsiv

Goldhirsh

Ivantsiv

et al. 2020

Proc. Natl. Acad. Sci. U.S.A.

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Nuclear factor–ĸB (NF-ĸB) transcription factor is a family of essential regulators of the immune response and cell proliferation and transformation. A typical factor is a heterodimer made of either p50 or p52, which are limited processing products of either p105 or p100, respectively, and a member of the Rel family of proteins, typically p65. The transcriptional program of NF-ĸB is tightly regulated by the composition of the dimers. In our previous work, we demonstrated that the ubiquitin ligase KPC1 is involved in ubiquitination and proteasomal processing of p105 to generate p50. Its overexpression and the resulting high level of p50 stimulates transcription of a broad array of tumor suppressors. Here we demonstrate that additional mechanisms are involved in the p50-mediated tumor-suppressive effect. p50 down-regulates expression of a major immune checkpoint inhibitor, the programmed cell death-ligand 1 (PD-L1), both in cells and in tumors. Importantly, the suppression is abrogated by overexpression of p65. This highlights the importance of the cellular quantities of the two different subunits of NF-ĸB which determine the composition of the dimer. While the putative p50 homodimer is tumor-suppressive, the “canonical” p50p65 heterodimer is oncogenic. We found that an additional mechanism is involved in the tumor-suppressive phenomenon: p50 up-regulates expression of the proinflammatory chemokines CCL3, CCL4, and CCL5, which in turn recruit into the tumors active natural killer (NK) cells and macrophages. Overall, p50 acts as a strong tumor suppressor via multiple mechanisms, including overexpression of tumor suppressors and modulation of the tumor microenvironment by recruiting active immune cells.

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A short binding site in the KPC1 ubiquitin ligase mediates processing of NF-κB1 p105 to p50: A potential for a tumor-suppressive PROTAC

Goldhirsh

Kravtsova‐Ivantsiv

Satish

et al. 2021

Proc. Natl. Acad. Sci. U.S.A.

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Nuclear factor κB (NF-κB) is an important transcriptional regulator that is involved in numerous cellular processes, including cell proliferation, immune response, cell survival, and malignant transformation. It relies on the ubiquitin–proteasome system (UPS) for several of the steps in the concerted cascade of its activation. Previously, we showed that the ubiquitin (Ub) ligase KPC1 is involved in ubiquitination and limited proteasomal processing of the NF-κB1 p105 precursor to generate the p50 active subunit of the “canonical” heterodimeric transcription factor p50–p65. Overexpression of KPC1 with the generation of an excessive amount of p50 was shown to suppress tumors, an effect which is due to multiple mechanisms. Among them are suppression of expression of programmed cell death-ligand 1 (PD-L1), overexpression of a broad array of tumor suppressors, and secretion of cytokines which results in recruitment of suppressive immune cells into the tumor. Here, we show that the site of KPC1 to which p105 binds is exceptionally short and is made up of the seven amino acids WILVRLW. Attachment of this short stretch to a small residual part (∼20%) of the ligase that also contains the essential Really Interesting New Gene (RING)-finger domain was sufficient to bind p105, conjugate to it Ub, and suppress tumor growth in an animal model. Fusion of the seven amino acids to a Von Hippel–Lindau protein (pVHL)-binding ligand (which serves as a “universal” ligase for many proteolysis-targeting chimeras; PROTACs) resulted in a compound that stimulated conjugation of Ub to p105 in a cell-free system and its processing to p50 in cells and restricted cell growth.

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The NF-ĸB p50 subunit generated by KPC1-mediated ubiquitination and limited proteasomal processing, suppresses tumor growth

et al. 2023

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Nuclear factor-ĸB (NF-ĸB) is an important transcriptional regulator of key cellular processes, including cell cycle, immune response, and malignant transformation. We found that the ubiquitin ligase Kip1 ubiquitination-promoting complex subunit 1 (KPC1; also known as Ring finger protein 123 – RNF123) stimulates ubiquitination and limited proteasomal processing of the p105 NF-ĸB precursor to generate p50, the active subunit of the heterodimeric transcription factor. KPC1 binds to the ankyrin repeats’ (AR) domain of NF-ĸB p105 via a short binding site of 7 amino acids—968-WILVRLW-974. Though mature NF-ĸB is overexpressed and constitutively active in different tumors, we found that overexpression of the p50 subunit, exerts a strong tumor suppressive effect. Furthermore, excess of KPC1 that stimulates generation of p50 from the p105 precursor, also results in a similar effect. Analysis of transcripts of glioblastoma and breast tumors revealed that excess of p50 stimulates expression of many NF-ĸB-regulated tumor suppressive genes. Using human xenograft tumor models in different immune compromised mice, we demonstrated that the immune system plays a significant role in the tumor suppressive activity of p50:p50 homodimer stimulating the expression of the pro-inflammatory cytokines CCL3, CCL4, and CCL5 in both cultured cells and in the xenografts. Expression of these cytokines leads to recruitment of macrophages and NK cells, which restrict tumor growth. Finally, p50 inhibits the expression of the programmed cell death-ligand 1 (PDL1), establishing an additional level of a strong tumor suppressive response mediated by the immune system.

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Gilad Goldhirsh

Excess of the NF-ĸB p50 subunit generated by the ubiquitin ligase KPC1 suppresses tumors via PD-L1– and chemokines-mediated mechanisms

A short binding site in the KPC1 ubiquitin ligase mediates processing of NF-κB1 p105 to p50: A potential for a tumor-suppressive PROTAC

The NF-ĸB p50 subunit generated by KPC1-mediated ubiquitination and limited proteasomal processing, suppresses tumor growth

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