Your search keyword '"Russ, Atlantis Dawn"' showing total 4 results

1. HUGL and the Role of Polarity in Breast Cancer

Author

Zarnescu, Daniela, Doetschman, Tom, McDermott, Kimberly, Schroeder, Joyce A., Russ, Atlantis Dawn, Zarnescu, Daniela, Doetschman, Tom, McDermott, Kimberly, Schroeder, Joyce A., and Russ, Atlantis Dawn

Abstract

Loss of polarity is a defining characteristic of epithelial cancers. The cytoskeletal proteins, HUGL1 and HUGL2, mediate polarity in epithelial cells through diversified roles in defining membrane identity and trafficking to the basolateral membrane. Importantly, an ortholog of these molecules can inhibit tumor growth in Drosophila, although the mechanisms of their tumor suppressive functions in mammary epithelial cells are unknown. Here, we show nonredundant tumor protective roles for HUGL1 and HUGL2 in human mammary epithelial cells. Using a three dimensional culture system, we report that loss of HUGL1 or HUGL2 causes loss of apicobasal polarity, aberrant growth of multilayered epithelium, nuclear enlargement, loss of membrane identity, and cellular overgrowth. Experiments on plastic also revealed that HUGL1 or HUGL2 loss results in induction of a phenotypic EMT in breast epithelial cells and overexpression of HUGL1 in breast cancer cells reduces proliferation.In a Drosophila model of cancer driven by loss of lgl, we have discovered the consistent dysregulation of a number of miRNAs and mRNAs including the loss of let-7 and miR-9a, which are implicated in breast cancer and associated with the suppression of stem cells. Cross comparisons revealed a set of mRNAs that are both dysregulated in vivo and represent putative targets of the miRNAs changed in lgl mutants. Among these, Thrombospondin, a component of the extracellular matrix was found to be misexpressed in both flies and human cells lacking Lgl. Moreover, genetic interaction experiments showed miR-9a to be a functional effector of lgl in controlling proliferation in the wing. Taken together, the findings reported in this dissertation suggest that HUGL1 and HUGL2 function as tumor suppressors through their roles in polarity and miRNA regulation. These two proteins, functioning as modulators of cell plasticity and promoters of differentiation, are potentially able to control the transition between a differenti

Published

2013

2. Efficacy and Toxicity Profile of Carfilzomib Based Regimens for Treatment of Multiple Myeloma, a Systematic Review

Author

Mushtaq, Adeela, Latif, Azka, Kapoor, Vikas, Warraich, Faiza Hassan, Warraich, Sami Ullah, Iftikhar, Ahmad, Tenneti, Pavan, Zafar, Raahem Nayab, Russ, Atlantis Dawn, Abraham, Ivo, McBride, Ali, and Anwer, Faiz

Abstract

Background:Standard induction therapy for Multiple Myeloma (MM) is triple combination therapy based on three classes of drugs: proteasome inhibitors, immunomodulators and steroids. Despite its notable efficacy, bortezomib has serious issues of peripheral neuropathy (PN) with incidence of grade ≥ 3 PN reported between 2% to 23%. A novel proteasome inhibitor, carfilzomib (CFZ) has high selectivity and minimal off-target adverse effects including lower rates of PN. CFZ has been approved for treatment of relapsed and refractory multiple myeloma (RRMM) as single agent as well as in combination with lenalidomide and/or dexamethasone. We conducted comprehensive literature search to summarize efficacy, dosing and toxicity profile of CFZ in newly diagnosed and relapsed MM.

Published

2017

3. Precision Therapy Targeting Signal Transduction Aberrant Pathways in Multiple Myeloma

Author

Zafar, Raahem Nayab, Russ, Atlantis Dawn, Iftikhar, Ahmad, Latif, Azka, Kapoor, Vikas, Warraich, Faiza Hassan, Warraich, Sami Ullah, Tenneti, Pavan, Baig, Mirza Zeeshan, McBride, Ali, and Anwer, Faiz

Abstract

Introduction:

Published

2017

4. A Decade of Drug Development through Phase-1 Trials; Systematic Review of Literature for Novel Drugs and Targets in Multiple Myeloma

Author

Deen, Imad Ud, Khalid, Muhammad Umar, Russ, Atlantis Dawn, Hua, Anh, Iftikhar, Ahmad, Mushtaq, Adeela, Safdar, Ahmad, McBride, Ali, and Anwer, Faiz

Abstract

Introduction:Multiple Myeloma (MM) remains an incurable malignancy but response rates are reaching 90% with induction chemotherapy. Despite improved therapy, majority of the patients still face relapse and drug resistance (Korteum KM et al, 2014). There has been significant advancement in drug development for MM with the introduction of many new classes of drugs such as proteasome inhibitors, Immunomodulatory agents, histone deacetylase (HDAC) inhibitors, surface molecule targeting antibodies, intracellular transduction inhibitors and chimeric antigen T cells (CAR-T). The purpose of our study is to systematically summarize the drugs and targets tested through phase I during the last 10 years and their potential mechanisms of actions (MOA).

Published

2017