Wesley M. Raup‐Konsavage scite author profile

Ischemia/reperfusion is a common cause of acute kidney injury (AKI). However, mechanisms underlying the sudden loss in kidney function and tissue injury remain to be fully elucidated. Here, we investigated the role of peptidyl arginine deiminase-4 (PAD4), which converts arginine to citrulline and plays a role in epigenetic regulation and inflammation, in renal ischemia/reperfusion injury. PAD4 expression was highly induced in infiltrating leukocytes 24 hours following renal ischemia and reperfusion. This induction was accompanied by citrullination of histone H3 and formation of neutrophil extracellular traps in kidneys of wild-type mice. By contrast, PAD4-deficient mice did not form neutrophil extracellular traps, expressed lower levels of pro-inflammatory cytokines and were partially protected from renal ischemia/reperfusion-induced AKI. Furthermore, PAD4-deficient mice recovered kidney function 48 hours after ischemia/reperfusion, whereas kidney function in the wild-type mice progressively worsened. Administration of DNase I, which degrades neutrophil extracellular traps or the PAD-specific inhibitor YW3-56 before ischemia, partially prevented renal ischemia/reperfusion-induced AKI. Notably, transfer of neutrophils from wild-type, but not from PAD4-deficient mice, was sufficient to restore renal neutrophil extracellular trap formation and impair kidney function following renal ischemia/reperfusion. Thus, neutrophil PAD4 plays a pivotal role in renal ischemia/reperfusion-induced AKI.

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Therapeutic Potential of Cannabis, Cannabidiol, and Cannabinoid-Based Pharmaceuticals

Legare

2022

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Background: There is a growing interest in the use of cannabis (and its extracts), as well as CBD oil (hemp extracts containing cannabidiol), for therapeutic purposes. While there is reason to believe that cannabinoids may be efficacious for a number of different diseases and syndromes, there exist limited objective data supporting the use of crude materials (CBD oil, cannabis extracts, and/or cannabis itself). Summary: In the present review, we examined data for pure cannabinoid compounds (dronabinol, nabilone, and CBD), as well as partially purified medicinal cannabis extracts (nabiximols), to provide guidance on the potential therapeutic uses of high-THC cannabis and CBD oil. In general, data support a role for cannabis/cannabinoids in pain, seizure disorders, appetite stimulation, muscle spasticity, and treatment of nausea/vomiting. Given the biological activities of the cannabinoids, there may be utility in treatment of central nervous system disorders (such as neurodegenerative diseases, PTSD, and addiction) or for the treatment of cancer. However, those data are much less compelling. Key Message: On balance, there are reasons to support the potential use of medical cannabis and cannabis extract (Δ9-THC-dominant or CBD-dominant), but much more careful research is required.

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A dynamic exchange of TCF3 and TCF4 transcription factors controls MYC expression in colorectal cancer cells

Shah¹,

Rennoll

Raup‐Konsavage

et al. 2015

Cell Cycle

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Deregulated Wnt/b-catenin signaling promotes colorectal cancer (CRC) by activating expression of the c-MYC protooncogene (MYC). In the nucleus, the b-catenin transcriptional co-activator binds T-cell factor (TCF) transcription factors, and together TCF/b-catenin complexes activate MYC expression through Wnt responsive DNA regulatory elements (WREs). The MYC 3' WRE maps 1.4-kb downstream from the MYC transcription stop site and binds TCF4/b-catenin transcription complexes to activate MYC. However, the underlying mechanisms for how this element operates are not fully understood. Here, we report that the TCF family member, TCF3, plays an important role in regulating MYC expression in CRCs. We demonstrate that TCF3 binds the MYC 3 0 WRE to repress MYC. When TCF3 is depleted using shRNAs, the MYC 3 0 WRE is more available to bind TCF4/b-catenin complexes. Stimulating downstream Wnt/b-catenin signaling by inhibiting GSK3b causes an exchange of TCF3 with TCF4/b-catenin complexes to activate MYC. Finally, this transcription factor switch at the MYC 3 0 WRE controls MYC expression as quiescent cells re-enter the cell cycle and progress to S phase. These results indicate that a dynamic interplay of TCF transcription factors governs MYC gene expression in CRCs.

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Synthetic Cannabinoid Activity Against Colorectal Cancer Cells

Raup‐Konsavage

Johnson

Legare

et al. 2018

Cannabis and Cannabinoid Research

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Introduction: Colorectal cancer (CRC) is a leading cause of cancer-related deaths worldwide, and new therapeutic strategies are still required. Here we screened a synthetic cannabinoid library to identify compounds that uniformly reduce the viability of seven CRC cell lines.Material and Methods: Seven distinct CRC cell lines were treated with 10 μM cannabinoid compounds (from a library of 370 molecules) for 48 h, and cell viability was subsequently measured with MTS assay. Dose–response curves were conducted for compounds that were found to reproducibly reduce cell viability of one or more cell lines.Results: We identified 10 compounds from the library that were able to reduce cell viability of CRC cell lines (with an IC50 ≤ 30 μM). Of these compounds, seven were specific for CRC cells, and six were effective in all CRC cell lines tested. Treatment with traditional phytocannabinoids (THC or CBD) was either ineffective or much less potent and only partially efficacious. Treatment with antagonists for the known cannabinoid receptors (alone or in combination) failed to block the activity of the most potent of identified compounds.Conclusion: We identified three families of cannabinoid compounds that reduce CRC cell viability through a noncanonical receptor mechanism. Future modification of these compounds may lead to the development of novel therapies to treat this disease.

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