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Cervical  cancer  is  a  leading  cause  of  cancer-­‐related  death  among  women.  The  SiHa  cell,  a  cervical  cancer  cell  line,  expresses  kera>n  8/18  (K8/18)  intermediate  filaments  that  when  elevated  is  indica>ve  of  neoplas>c  changes.  The  kera>n  18  monomer  of  kera>n  filaments  is  glycosylated  by  N-­‐acetylglucosmine  (O-­‐GlcNAc).  In  general,  hyper-­‐O-­‐GlcNAcyla>on  is  a  common  characteris>c  of  many  cancers.  However,  poten>al  connec>ons  between  O-­‐GlcNAcyla>on,  K8/18  filament  expression,  and  the  tumorigenic  poten>al  of  cells  expressing  these  traits  have  not  been  explored.  Here  we  tested  the  hypothesis  that  O-­‐GlcNAcyla>on  in  SiHa  cells  promotes  tumorigenic  poten>al.  Accordingly,  growth  experiments  indicated  that  SiHa  cells  grown  under  controlled  culture  condi>ons  mul>plied  faster  than  cells  exposed  to  Alloxan,  an  O-­‐GlcNAcyla>on  inhibitor  (0.31  vs.  0.08  doublings/day,  respec>vely),  and  had  a  shorter  genera>on  >me  (2.27  vs.  8.78  days,  respec>vely;  n=  3  experiments).  A  wound-­‐healing  assay  demonstrated  that  SiHa  cells  migrate  faster  aSer  injury  vs.  cells  exposed  to  Alloxan  (5.5  vs.  4.1  µm/hour,  respec>vely;  n=3  experiments).  These  ini>al  observa>ons  suggest  that  O-­‐GlcNAcyla>on  in  SiHa  cells,  possibly  via  K8/18  filaments,  increases  tumorigenic  poten>al.  The  results  provide  further  insight  about  the  poten>al  influence  of  glycosyla>on  and  kera>n  filaments  on  cell  physiology  beyond  simply  being  a  diagnos>c  measure  of  cancer.    

An  es>mated  half-­‐million  new  cases  of  cervical  cancer  are  recorded  annually  worldwide,  half  of  which  result  in  death.  A  connec>on  between  infec>on  with  the  human  papillomavirus  (HPV)  and  the  onset  of  cervical  cancer  was  discovered  two  decades  ago.  More  than  99%  of  cervical  cancers  are  caused  by  the  high-­‐risk  HPV  viruses  (HPV)  16  and  18  [1].  The  HPV16-­‐infected  cervical  cancer  cell  line  (SiHa)  was  selected  as  a  model  to  inves>gate  aspects  of  tumorigenesis.  Specifically,  we  inves>gated  the  role  of  glycosyla>on  by  N-­‐acetylglucosmine  (O-­‐GlcNAc)  as  a  poten>al  influence  on  tumorigenicity.    Global  O-­‐GlcNAcyla>on  was  manipulated  with  Alloxan,  an  O-­‐GlcNAc  transferase  (OGT)  inhibitor,  and  PUGNAc,  an  O-­‐GlcNAcase  inhibitor  (OGA)  [2].  

INTRODUCTION  

HYPOTHESIS  

Cell  Prolifera6on  Assay  •  Treatment  groups  included  cells  cultured  in  the  absence  (Control)  and  presence  of  5mM  Alloxan  

•  Flat-­‐bocomed  growth  tubes  were  seeded  with  100K  SiHa  cells  in  EMEM,  10%  FBS,  with  an>bio>cs    

•  Condi>oned  medium  and  treatments  were  exchanged  daily,  and  cultures  from  each  treatment  group  were  harvested  for  coun>ng  every  24  hours  

Cell  Migra6on  Assay    •  Treatment  groups  included    cells  cultured  in  the  absence  (Control)  and  presence  of  5mM  Alloxan  

•  Confluent  monolayers  of  SiHa  cells  in  24  well  plates  were  “wounded”  with  a  cell  scraper  

•  Wound  healing  was  imaged  and  the  percent  closure  and  cell  migra>on  rate  were  calculated  every  24  hours  

Cell  Invasion  Assay    •  Treatment  groups  included  cells  cultured  in  the  absence  (Control)  and  presence  of    either  5mM  Alloxan  or  200mM  PUGNAc  

•  100K  SiHa  cells  were  seeded  into  12  well  Transwell  inserts  having  12μm  pores  (Corning;  Corning,  NY)    

•  FBS  was  used  as  a  chemoacractant  in  the  lower  chamber,  and  the  cultures  were  incubated  24  hours.  Inserts  were  then  fixed,  stained  with  Crystal  Violet,  and  imaged  before  being  destained  in  70%  ethanol  to  measure  absorbance  at  540nm  

MATERIALS  &  METHODS  

RESULTS  Hypo-­‐O-­‐GlcNAcyla-on  Impairs  Cell  Prolifera-on    

O-­‐GlcNAcyla>on  promotes  tumorigenic  poten>al  of                          cervical  cancer  cells.  

Figure  1.  Inhibi.ng  O-­‐  GlcNAcyla.on  in  SiHa  cells  (via  Alloxan)  prevented    cell  prolifera.on  (p<0.0001;  n=3  independent  experiments).    There  was  no  effect,  however,  on  cell  viability.    

RESULTS  (CONTINUED)  

Figure  2.  Representa.ve  images  from  three  independent  experiments.  Inhibi.on  of  O-­‐GlcNAcyla.on  reduced  the  cell  migra.on  rate  (P<0.001),  and  thus  the  wound  healing  poten.al  of  SiHa  cells.  DoRed  red  lines  indicate  loca.on  of  the  ini.al  wound.  Photos  at  40x  magnifica.on.    

RESULTS  (CONTINUED)  

Figure  4.Graph  is  representa.ve  of  cell  migra.on  from  3  independent  migra.on  invasion  experiments  in  which  migra.on  was  only  impaired  by  inhibi.on  of  O-­‐GlcNAcyla.on  (Alloxan),  (P<0.01).    

SUMMARY  •  Inhibi>on  O-­‐GlcNAcyla>on  impaired  SiHa  cell  

prolifera>on  (Figure  1),  cell  migra>on  (Figure  2),  and  cell  invasion  (Figures  3  and  4).  

•  Hyper-­‐O-­‐GlcNAcyla>on  had  no  effect  on  cell  invasion  (Figure  4).  

 

REFERNCES  

ACKNOWLEDGMENTS  &  CONTACT    

Stephanie  Parisi    stg27@wildcats.unh.edu  University  of  New  Hampshire    

 This  material  is  based  upon  work  supported  by  the  COLSA  Karabelas  Fund.    Par>cular  apprecia>on  is  expressed  to  Dr.  Townson  and    Dr.  Foxall  and  their  laboratories  for  providing  materials  and  assistance  with  the  experiments.    

Hypo-­‐O-­‐GlcNAcyla-on  Inhibits  Cell  Migra-on    

Hypo-­‐O-­‐GlcNAcyla-on  Prevents  Cell  Invasion;  Hyper-­‐O-­‐GlycNacyla-on  Has  No  Effect  

David  H.  Towson    dave.townson@unh.edu    University  of  New  Hampshire  Kendall  Hall  Room  509  Durham,  NH  03824    

Total  number  of  genera>ons:    2.2  vs.  0.6    (Control  vs.  Alloxan)  Mul>plica>on  rate:    0.4  vs.  0.1  doublings  per  day    Genera>on  >me:    2.3  vs.  7.8  days  

1.  Liao  S,  Lee  W,  Chen  H,  Chuang  L,  Pan  M,  Chen  C.  Baseline  human  papillomavirus  infec>on,  high  vaginal  parity,  and  their  interac>on  on  cervical  cancer  risks  aSer  a  follow-­‐up  of  more  than  10  years.  Cancer  Causes  &  Control  2012(5):703  

2.  Varki,  A.  et  al.  Essen>als  of  Glycobiology  What  is  Glycobiology  ?.  (Cold  Spring  Harbor  Laboratory  Press,  2009).    

Figure  3.  Representa.ve  images  from  three  independent  cell  invasion  experiments.  Crystal  Violet-­‐stained  cells  that  have  migrated  through  the  Transwell  insert  pores  are  shown.  Photos  at  40x  magnifica.on.    

ABSTRACT  

T=0  hrs  0%  Migra6on    

T=48  hrs  40%  Migra6on    

T=96  hrs  92%  Migra6on    

Control    

T=0  hrs  0%  Migra6on    

T=48  hrs  3%  Migra6on    

T=96  hrs  60%  Migra6on    

Hypo-­‐O-­‐GlcNAcyla6on    

CONCLUSION    O-­‐GlcNAcyla>on  enhances  tumorigenesis  

of  cervical  cancer  cells.  

OH

K8/18  Intermediate  Filaments  

GlcNAc  UDP-­‐GlcNAc                                      UDP    

O-­‐GlcNAcase  (OGA)  

O-­‐GlcNAc  transferase  (OGT)  

GlcNAc                                                            H20  

Chemoa[ractant  Present    

No  Chemoa[ractant  Present    

Hypo-­‐O-­‐GlcNAcyla6on    

Hyper-­‐O-­‐GlcNAcyla6on    Control    

Control    

Blank  Insert  No  Cells    

Hypo-­‐O-­‐GlcNAcyla6on    

Hyper-­‐O-­‐GlcNAcyla6on    

Control     Hypo-­‐O-­‐GlcNAcyla6on  

Migrated  Surface  Area   5mm2     4mm2    

Migra>on  Rate   5.5μm  /hour      

4.1μm/hour    

Full  wound  closure     120  hours     168  hours      

0  0.01  0.02  0.03  0.04  0.05  0.06  0.07  

Control     Hyper-­‐O-­‐GlcNAcyla>on    

Hypo-­‐O-­‐GlcNAcyla>on      

Rela6v

e  Ab

sorban

ce  (5

40nm

)  

Chemoacractant  Present     No  Chemoacractant  Present    

a   b  b  

b  

b  

PUGNAc  

Alloxan  

a