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User Spotlight

Tianyan Wang

Tianyan Wang_Photo

Tianyan Wang

Research assistant, Umeå University

Tianyan Wang got his Master’s degree in Marin Biology from Tsinghua University in 2012 and a Doctoral degree in Cancer Biology from Umeå University in 2022. He is a research assistant at Umeå University. His research interests are anticancer from an evolutionary perspective and human musicality’s biological origins and evolution. In 2021, he founded the fashion brand ANDAPH and the Swedish company Andaph AB.

Tianyan shares with us how digital holographic cytometry (DHC) and HoloMonitor data have been key in his Ph.D. thesis: Utility of Novel Drug Targets for Treatment of Metastatic Cancer.

Metastasis is the leading reason for cancer mortality. Therefore, an early diagnosis before metastasis is especially important. The lipid kinase phosphatidylinositol 4-phosphate 5 kinase (PIP5K1α) has been shown to play a vital role in the PI3K/AKT and KRAS signaling pathways, which makes it a potential target for cancer treatment. Tianyan and his colleagues have discovered a selective PIP5K1α inhibitor, ISA-2011B, that inhibits PIP5K1α kinase activity and blocks its downstream PI3K/AKT phosphorylation, leading to reduced growth and invasion of PCa in cell lines and xenograft mouse models.

HoloMonitor is an excellent microscope!

TIanyan wang
Umeå University

Q: Tell us a bit more about your research!

Metastasis is the leading cause of cancer death because of a lack of early diagnosis tools and efficient treatment drugs. The lipid kinase phosphatidylinositol-4-phosphate 5-kinase type 1 alpha (PIP5K1α) has been shown to play a vital role in the PI3K/AKT and KRAS signaling pathways. Therefore, my research aims to study the role of PIP5K1α as a potential target for cancer treatment and the utility of its inhibitor ISA-2011B for the treatment of castration-resistant prostate cancer (CRPC) and pancreatic cancer.

Q:  Can you describe how you typically use HoloMonitor in your work?

Our mission is to develop some promising compounds, for example, ISA-2011B, into a therapeutic medicine for cancer treatment. However, before applying it to clinical usage, we have to test the efficacy and safety of the compound by in vitro and in vivo experiments and clinical trials.

HoloMonitor M4 allows me to collect many cellular properties, including cell morphology, cell proliferation, and cell motility. Moreover, you can collect all this information from a single experiment without extra work. HoloMonitor M4 data shows that cell morphology experienced a significant change under ISA-2011B treatment in one of our recent studies. In addition, the cell growth, proliferation, mean cell speed and accumulated mean distance are all inhibited by ISA-2011B.

Prostate cancer cell line C4-2 under the treatment of ISA-2011B. Data was collected by Holomonitor M4 and analyzed by the software Hstudio M4.

C4-2 prostate cancer cells with 48h treatment of ISA-2011B

Q: Looking back at the first time you saw HoloMonitor live — what was your first impression? 

The time-lapse movie from M4 made the invisible cell behavior visible, which caught my eye for the first time. In our in vitro treatment experiment, the cell activities for the 48-hour treatment procedure can be made into a one-minute video by the App Suite software. This allows us to witness cell growth and division. The cell-newborn looks like a pearl, and then they attach to the wall and grow larger and larger. They detach from the wall, become pearl-like balls before dividing, and subsequently separate into two newborns. I had never seen a real cell division before M4 provided this opportunity. 


We at PHI say Thank you to Tianyan for the interview!

The HoloMonitor live cell imager viewed from the front

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