Back to Cell Biology

Because you’ve just gotta love cells. And because this post is about a publication in The Journal of Cell Biology, published by the Rockefeller University Press. In the summer of 2014 I spent almost three months doing an undergraduate research programme at Cold Spring Harbor Laboratory in the lab of Lloyd Trotman and under the everyday supervision of Dawid G. Nowak. I mainly helped Dawid establish the CRISPR/Cas9 method in the lab to study several types of cancers, including lung and prostate cancer. The first story, in which we used CRISPR to knockout a potent oncogene called Myc, was published almost two years ago (Nowak et al, 2015). Now Dawid is the co-first author on a new paper studying a tumour suppressor protein called PTEN (Chen, Nowak, … Wang, … et al, 2017).

Here is an eLife-style digest of the manuscript. Tumours usually evolve when cells gain the function of so-called oncogenes and lose the function of one or more so-called tumour suppressor genes. One of the most frequently deleted or down-regulated tumour suppressors is a protein called PTEN. Some cancer types, including some types of lung and prostate cancer, do not always delete the two gene copies coding for the PTEN protein, but the levels of PTEN protein in those cancer cells is still kept low. Therefore we wanted to find out which pathways in cancer cells lower the PTEN protein levels. Knowing about this regulation could lead to the development of new therapies that aim at stabilising PTEN protein.

First, we used both mouse and human cancer cell lines to investigate the movement of PTEN between the cytoplasm and the nucleus. We hypothesised that PTEN might be protected from being degraded in the nucleus, since the enzymes that break proteins down are generally found in the cytoplasm. Biochemical experiments showed that PTEN was moved into the nucleus by a protein called importin-11. Next, and this is the experiment I performed, we deleted importin-11 using CRISPR/Cas9 and saw that PTEN abundance decreased, while active/phosphorylated Akt, an oncogene, increased:


Western blot showing CRISPR/Cas9 deletion of importin-11 in human prostate cancer cell lines – copied directly from Fig. 2 of Chen, Nowak et al, 2017

Further experiments conducted in the cell lines supported the following model, in which PTEN is shuttled into the nucleus by importin-11 where it is protected from degradation by the ubiquitin ligase system:


Model of PTEN shuttling: when importin-11 is present PTEN can “hide” in the nucleus (left), but when importin-11 is deleted/not functioning, PTEN accumulates in the cytoplasm where it can be targeted for degradation – copied directly from Fig. 4 of Chen, Nowak et al, 2017

Next we wanted to know whether this mechanism of keeping levels of PTEN low is also important for preventing tumours. When importin-11 was experimentally down-regulated in mice (the gene for importin-11 was not completely deleted but its mutation is said to be “hypomorphic”), the mice developed and eventually died from lung cancers, unlike the healthy control mice:


Lesion-free survival curve of importin-11 mutant (red) versus control (black) mice – copied directly from Fig. 5 of Chen, Nowak et al, 2017

Similar results were also obtained for prostate tumours in mice. Lastly, we analysed publicly available data of human prostate cancer patients. Low levels of importin-11 (either by genetic deletion or low gene expression) correlated with higher rates of tumour recurrence, suggesting that importin-11 also acts as a tumour suppressor in some types of human cancer. Future experiments may involve conducting more sophisticated mouse experiments in which importin-11 is deleted in specific organs, together with the activation of known oncogenes. This work may also lead to studies that try to find ways of stabilising PTEN protein.

So that’s it. Publication number three! But I want to end on a slightly more philosophical/political note. Dawid, one of the two first authors, taught me a lot during that summer programme, has been supportive ever since, and I enjoy keeping in touch with him. At the moment he is looking for an independent research position – he is enthusiastic about science and very driven. He’s had interviews all over the place, both in Europe and North America. However, Dawid is Polish and is now having to re-think his options since neither the UK nor the USA seem particularly appealing places for him anymore. We live in a crazy world but I hope this won’t stop him from getting the lab he deserves, in the most tolerant place possible.


Chen M, Nowak DG, Narula N, Robinson B, Watrud K, Ambrico A, Herzka TM, Zeeman ME, Minderer M, Zheng W, Ebbesen SH, Plafker KS, Stahlhut C, Wang VMY, Wills L, Nasar A, Castillo-Martin M, Cordon-Cardo C, Wilkinson JE, Powers S et al. (2017) The nuclear transport receptor Importin-11 is a tumor suppressor that maintains PTEN protein. The Journal of Cell Biology DOI: 10.1083/jcb.201604025

Nowak DG, Cho H, Herzka T, Watrud K, DeMarco DV, Wang VM, Senturk S, Fellmann C, Ding D, Beinortas T, Kleinman D, Chen M, Sordella R, Wilkinson JE, Castillo-Martin M, Cordon-Cardo C, Robinson BD, Trotman LC (2015) MYC Drives Pten/Trp53-Deficient Proliferation and Metastasis due to IL6 Secretion and AKT Suppression via PHLPP2. Cancer Discovery 5: 636-651