Joyce Pui Ying Mak scite author profile

Controversy remains whether articular cartilage has an endogenous stem/progenitor cell population, since its poor healing capacity after injury can lead to diseases such as osteoarthritis. In the joint environment there are mesenchymal stem/progenitor cells (MSCs) in the synovial membrane and synovial fluid that can differentiate into cartilage, but it is still under debate if these cells contribute to cartilage repair in vivo. In this study, we isolated a Sca-1 positive, chondrogenesis capable population of mouse synovial MSCs from C57BL6 and MRL/MpJ “super-healer” strains. Intra-articular injection of Sca-1 + GFP + synovial cells from C57BL6 or MRL/MpJ into C57BL6 mice following cartilage injury led to increased cartilage repair by 4 weeks after injury. GFP expression was detected in the injury site at 2 weeks, but not 4 weeks after injury. These results suggest that synovial stem/progenitor cells, regardless of strain background, have beneficial effects when injected into an injured joint. MSCs derived from MRL/MpJ mice did not promote an increased repair capacity compared to MSCs derived from non-healing C57BL6 controls; however, MRL/MpJ MSCs were observed within the defect area at the time points examined, while C57BL6 MSCs were not.

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Synergism between ATM and PARP1 Inhibition Involves DNA Damage and Abrogating the G2 DNA Damage Checkpoint

Mak

Tang

Poon

2020

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PARP inhibitors have emerged as effective chemotherapeutic agents for BRCA1/BRCA2-deficient cancers. Another DNA damage response protein, ATM, is also increasingly being recognized as a target for synthetic lethality with PARP inhibitors. As ATM functions in both cell cycle arrest and DNA repair after DNA damage, how cells respond to inhibition of ATM and PARP1 is yet to be defined precisely. We found that loss of ATM function, either in an ATM-deficient background or after treatment with ATM inhibitors (KU-60019 or AZD0156), results in spontaneous DNA damage and an increase in PARylation. When PARP1 is also deleted or inhibited with inhibitors (olaparib or veliparib), the massive increase in DNA damage activates the G 2 DNA damage checkpoint kinase cascade involving ATR, CHK1/2, and WEE1. Our data indicated that the role of ATM in DNA repair is critical for the synergism with PARP inhibitors. Bypass of the G 2 DNA damage checkpoint in the absence of ATM functions occurs only after a delay. The relative insensitivity of PARP1-deficient cells to PARP inhibitors suggested that other PARP isoforms played a relatively minor role in comparison with PARP1 in synergism with ATMi. As deletion of PARP1 also increased sensitivity to ATM inhibitors, trapping of PARP1 on DNA may not be the only mechanism involved in the synergism between PARP1 and ATM inhibition. Collectively, these studies provide a mechanistic foundation for therapies targeting ATM and PARP1.

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Co-inhibition of polo-like kinase 1 and Aurora kinases promotes mitotic catastrophe

Hong

Chow

et al. 2015

Oncotarget

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Mitosis is choreographed by a number of protein kinases including polo-like kinases and Aurora kinases. As these kinases are frequently dysregulated in cancers, small-molecule inhibitors have been developed for targeted anticancer therapies. Given that PLK1 and Aurora kinases possess both unique functions as well as co-regulate multiple mitotic events, whether pharmacological inhibition of these kinases together can enhance mitotic catastrophe remains an outstanding issue to be determined. Using concentrations of inhibitors that did not induce severe mitotic defects on their own, we found that both the metaphase arrest and mitotic slippage induced by inhibitors targeting Aurora A and Aurora B (MK-5108 and Barasertib respectively) were enhanced by a PLK1 inhibitor (BI 2536). We found that PLK1 is overexpressed in cells from nasopharyngeal carcinoma, a highly invasive cancer with poor prognosis, in comparison to normal nasopharyngeal epithelial cells. Nasopharyngeal carcinoma cells were more sensitive to BI 2536 as a single agent and co-inhibition with Aurora kinases than normal cells. These observations underscore the mechanism and potential benefits of targeting PLK1 and Aurora kinases to induce mitotic catastrophe in cancer cells.

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