Volume 6, Issue 4(Suppl)
Transl Med 2016
ISSN: 2161-1025, an open access journal
Page 74
Notes:
conferenceseries
.com
Translation Medicine & World Oncologists 2016
November 28-30, 2016
Translational Medicine and Oncologists Meet
November 28-30, 2016 San Francisco, USA
14
th
Annual Conference on
The tumor suppressor p16
INK4a
expression bypasses 17AAGmediated cellular effects in human neuroblastoma,
IMR-32
Abhijnya KVV
and
Sreedhar AS
Centre for Cellular and Molecular Biology, India
T
he cancer chaperone, Hsp90 has been identified as a molecular target for cancer treatment interfering majorly with the
proliferative potential of cells. Tumor cells can bypass the effects of tumor suppressors either through altered functions or
deletions. We show that tumor cells that get adapted to tumor suppressor, p16INK4a circumvent growth suppressing functions and
bypass Hsp90 inhibition mediated cell killing. The inability of cells to respond to Hsp90 inhibitor, 17AAG was found to be due to
enhanced CDK6 dependent cell cycle regulation. Knocking down p16
INK4a
enhanced CDK6 dependent cell cycle regulation in NRAS
and CRAF dependent manner associating with enhanced migration and invasion. p16
INK4a
KD cells then showed sensitivity to 17AAG
by arresting at G1 phase of cell cycle and inhibiting cell migration and invasion. Further, p16
INK4a
KD cells showed increased p14ARF,
a negative regulator of MDM2 activating DNA damage response (DDR) through p53 stabilization and accumulation of p21
WAF1/CIP1
.
Although activated DDR in the functional compromise of Hsp90 induces cytotoxicity, we observed activation of cellular senescence,
an alternative strategy to combat cancer. The in vitro findings are being evaluated
in vivo
using mice to affirm the anti-tumor effects
of our treatment. Our results thus, have implications in anti-cancer therapeutics specifically against tumor cells that survive despite
tumor suppressor expression.
Biography
Abhijnya KVV has major research interest in understanding the role of 'cancer chaperone, Hsp90' in tumor cell adaptations to stress. While several of oncogenic kinases
are potential clients of Hsp90, how Hsp90 helps cells to adapt to single kinase mutations is an intriguing question. While addressing this question, I also intended to come
out with inducing cellular senescence as a potential anticancer strategy. I have established tumor cells adapted to single mutation in Raf using primary human cells and
uncovered how this mutated gene product activates Hsp90. Upon selective targeting of Hsp90 in these cells, they reverted from cancer progression back to senescence.
Since the strategy I developed in the course of my study appears to be promising, I aim to bring about more such strategies either using a single Hsp90 inhibitor or in a
combination against multiple types of cancers.
abhijnyak89@gmail.comAbhijnya KVV et al., Transl Med 2016, 6:4(Suppl)
http://dx.doi.org/10.4172/2161-1025.C1.020