Abstract
Aerobic glycolysis is a hallmark of tumor cells. SGLT1 plays a vital role in glucose metabolism. However, whether SGLT1 could promote cell growth and proliferation in breast cancer remains unclear. Here, we investigated the expression of SGLT1 in breast cancer and examined its role in malignant behavior and prognosis. Further, we examined the SGLT1 expression in breast cancer tissues and its relationship with clinicopathologic characteristics. We clarified that SGLT1 was overexpressed in HER2+ breast cancer cell lines and was affected by HER2 status. We further found that SGLT1 affected breast cancer cell proliferation and patient survival by mediating cell survival pathway activation. SGLT1 was overexpressed in HER2+ breast cancers and associated with lymph node metastasis and HER2+ status. Inhibition of HER2 decreased SGLT1 expression, and the extracellular acidification rate was also reduced in the UACC812 and SKBR3 cell lines. These changes could be reversed by proteasome inhibitor treatment. Knockdown of SGLT1 blocked PI3K/Akt/mTOR signaling, thereby inhibiting cell proliferation. Further, we demonstrated that high SGLT1 was significantly correlated with shorter survival in all breast cancer patients and specifically in HER2+ breast cancer patients. Therefore, we conclude that SGLT1 is overexpressed in HER2+ breast cancer, thereby promoting cell proliferation and shortening survival by activating PI3K/Akt/mTOR signaling. This study submits that SGLT1 is promising not only as a novel biomarker of HER2+ breast cancer subtype but also as a potential drug target.
Highlights
Breast cancer is the second leading cause of cancer-related death in women worldwide [1,2,3], and its incidence has risen rapidly in recent years [4, 5]
Significant improvements in Disease-free survival ECAR (DFS) and Overall survival PI3K (OS) have been achieved by comprehensive adjuvant therapy [6], breast cancer patients diagnosed at advanced stages still have poor prognosis [7]
Among the 216 invasive breast cancer samples with complete information for molecular subtypes, 93 (43.1%) samples were luminal-like subtype, 81 (37.5%) samples were HER2+ subtype, and 42 (19.4%) samples were basal-like subtype
Summary
Breast cancer is the second leading cause of cancer-related death in women worldwide [1,2,3], and its incidence has risen rapidly in recent years [4, 5]. Significant improvements in DFS and OS have been achieved by comprehensive adjuvant therapy [6], breast cancer patients diagnosed at advanced stages still have poor prognosis [7]. The HER2+ subtype accounts for 15-20% of breast cancer cases and is prone to recurrence and metastasis [8, 9]. De novo and acquired resistance [11] to drugs targeting HER2 are common, and the resultant refractory disease can seriously affect prognosis. How to enhance the response to therapeutic drugs and improve survival is still a subject of extensive research
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