The dopamine transporter antagonist vanoxerine inhibits G9a and suppresses cancer stem cell functions in colon tumors.

Cancer stem cells (CSCs), functionally characterized by self-renewal and tumor-initiating activity, contribute to decreased tumor immunogenicity, while fostering tumor growth and metastasis. Targeting G9a histone methyltransferase (HMTase) effectively blocks CSC functions in colorectal tumors by altering pluripotent-like molecular networks; however, existing molecules directly targeting G9a HMTase activity failed to reach clinical stages due to safety concerns. Using a stem cell-based phenotypic drug-screening pipeline, we identified the dopamine transporter (DAT) antagonist vanoxerine, a compound with previously demonstrated clinical safety, as a cancer-specific downregulator of G9a expression.

Reduced live birth rates after embryo transfer in patients with prior cesarean delivery: A retrospective cohort study.

Objective: To evaluate whether live birth rates following first embryo transfer (ET) among patients after cesarean delivery are lower compared to patients with only prior vaginal delivery.

Study Design: Retrospective cohort study including patients with prior delivery who underwent first subsequent embryo transfer (fresh or frozen) between January 2013 and September 2019. The primary outcome was live birth rate among patients with at least one prior cesarean delivery compared to vaginal delivery only.

Pharmacological targeting of Sam68 functions in colorectal cancer stem cells.

Cancer stem cells (CSCs) are documented to play a key role in tumorigenesis and therapy resistance. Despite significant progress in clinical oncology, CSC reservoirs remain elusive and difficult to eliminate. Reverse-turn peptidomimetics were characterized as disruptors of CBP/beta-Catenin interactions and represent a promising avenue to curb hyperactive canonical Wnt/beta-Catenin signaling in CSCs.

Emerging role of G9a in cancer stemness and promises as a therapeutic target.

The histone methyltransferase G9a is well-documented for its implication in neoplastic growth. However, recent investigations have demonstrated a key involvement of this chromatin writer in maintaining the self-renewal and tumor-initiating capacities of cancer stem cells (CSCs). Direct inhibition of G9a's catalytic activity was reported as a promising therapeutic target in multiple preclinical studies.

G9a controls pluripotent-like identity and tumor-initiating function in human colorectal cancer.

Colorectal tumors are hierarchically organized and governed by populations of self-renewing cancer stem cells, representing one of the deadliest types of cancers worldwide. Emergence of cancer stemness phenotype depends on epigenetic reprogramming, associated with profound transcriptional changes. As described for pluripotent reprogramming, epigenetic modifiers play a key role in cancer stem cells by establishing embryonic stem-like transcriptional programs, thus impacting the balance between self-renewal and differentiation.