Novel role for the Golgi membrane protein TMEM165 in control of migration and invasion for breast carcinoma Article

Murali, P, Johnson, BP, Lu, Z et al. (2020). Novel role for the Golgi membrane protein TMEM165 in control of migration and invasion for breast carcinoma . 11(28), 2747-2762. 10.18632/oncotarget.27668

cited authors

  • Murali, P; Johnson, BP; Lu, Z; Climer, L; Scott, DA; Foulquier, F; Oprea-Ilies, G; Lupashin, V; Drake, RR; Abbott, KL

abstract

  • The TMEM165 gene encodes for a multiple pass membrane protein localized in the Golgi that has been linked to congenital disorders of glycosylation. The TMEM165 protein is a putative ion transporter that regulates H+/Ca++/Mn++ homeostasis and pH in the Golgi. Previously, we identified TMEM165 as a potential biomarker for breast carcinoma in a glycoproteomic study using late stage invasive ductal carcinoma tissues with patient- matched adjacent normal tissues. The TMEM165 protein was not detected in non-malignant matched breast tissues and was detected in invasive ductal breast carcinoma tissues by mass spectrometry. Our hypothesis is that the TMEM165 protein confers a growth advantage to breast cancer. In this preliminary study we have investigated the expression of TMEM165 in earlier stage invasive ductal carcinoma and ductal carcinoma in situ cases. We created a CRISPR/Cas9 knockout of TMEM165 in the human invasive breast cancer cell line MDAMB231. Our results indicate that removal of TMEM165 in these cells results in a significant reduction of cell migration, tumor growth, and tumor vascularization in vivo. Furthermore, we find that TMEM165 expression alters the glycosylation of breast cancer cells and these changes promote the invasion and growth of breast cancer by altering the expression levels of key glycoproteins involved in regulation of the epithelial to mesenchymal transition such as E-cadherin. These studies illustrate new potential functions for this Golgi membrane protein in the control of breast cancer growth and invasion.

publication date

  • July 14, 2020

Digital Object Identifier (DOI)

start page

  • 2747

end page

  • 2762

volume

  • 11

issue

  • 28