Your search keyword '"Ramalinga, Malathi"' showing total 17 results

1. MicroRNA-214 targets PTK6 to inhibit tumorigenic potential and increase drug sensitivity of prostate cancer cells.

Author

Cagle, Patrice, Niture, Suryakant, Srivastava, Anvesha, Ramalinga, Malathi, Aqeel, Rasha, Rios-Colon, Leslimar, Chimeh, Uchechukwu, Suy, Simeng, Collins, Sean P, Dahiya, Rajvir, and Kumar, Deepak

Abstract

Prostate cancer is the most commonly diagnosed cancer in men with African American men disproportionally suffering from the burden of this disease. Biomarkers that could discriminate indolent from aggressive and drug resistance disease are lacking. MicroRNAs are small non-coding RNAs that affect numerous physiological and pathological processes, including cancer development and have been suggested as biomarkers and therapeutic targets. In the present study, we investigated the role of miR-214 on prostate cancer cell survival/migration/invasion, cell cycle regulation, and apoptosis. miR-214 was differentially expressed between Caucasian and African American prostate cancer cells. Importantly, miR-214 overexpression in prostate cancer cells induced apoptosis, inhibiting cell proliferation and colony forming ability. miR-214 expression in prostate cancer cells also inhibited cell migration and 3D spheroid invasion. Mechanistically, miR-214 inhibited prostate cancer cell proliferation by targeting protein tyrosine kinase 6 (PTK6). Restoration of PTK6 expression attenuated the inhibitory effect of miR-214 on cell proliferation. Moreover, simultaneous inhibition of PTK6 by ibrutinib and miR-214 significantly reduced cell proliferation/survival. Our data indicates that miR-214 could act as a tumor suppressor in prostate cancer and could potentially be utilized as a biomarker and therapeutic target.

Published

2019

2. Leptin modulated microRNA-628-5p targets Jagged-1 and inhibits prostate cancer hallmarks

Author

Rios-Colon, Leslimar, Chijioke, Juliet, Niture, Suryakant, Afzal, Zainab, Qi, Qi, Srivastava, Anvesha, Ramalinga, Malathi, Kedir, Habib, Cagle, Patrice, Arthur, Elena, Sharma, Mitu, Moore, John, Deep, Gagan, Suy, Simeng, Collins, Sean P., and Kumar, Deepak

Published

2022

3. Autophagy inhibitor 3-methyladenine potentiates apoptosis induced by dietary tocotrienols in breast cancer cells

Author

Tran, Anh Thu, Ramalinga, Malathi, Kedir, Habib, Clarke, Robert, and Kumar, Deepak

Published

2015

4. Abstract 5822: Leptin modulated microRNA-628-5p targets Jagged1 and inhibits prostate cancer hallmarks

Author

Colon, Leslimar Rios, primary, Chijioke, Juliet, additional, Niture, Suryakant, additional, Afzal, Zainab, additional, Qi, Qi, additional, Srivastava, Anvesha, additional, Ramalinga, Malathi, additional, Kedir, Habib, additional, Cagle, Patrice, additional, Arthur, Elena, additional, Deep, Gagan, additional, Suy, Simeng, additional, Collins, Sean, additional, and Kumar, Deepak, additional

Published

2022

5. Abstract 770: MiR628-5p targets Jagged 1 and inhibits growth, stemness and invasiveness of advanced prostate cancer cells

Author

Rios-Colon, Leslimar, primary, Chijioke, Juliet, additional, Srivastava, Anvesha, additional, Ramalinga, Malathi, additional, Kedir, Habib, additional, Arthur, Elena, additional, Cagle, Patrice, additional, Deep, Gagan, additional, and Kumar, Deepak, additional

Published

2019

6. Abstract 3561: MicroRNA-214 inhibits prostate cancer cell proliferation, migration, invasion and increases drug sensitivity by targeting PTK6

Author

Cagle, Patrice, primary, Niture, Suryakant, additional, Srivastava, Anvesha, additional, Ramalinga, Malathi, additional, Rios-Colon, Leslimar, additional, Chimeh, Uchechukwu, additional, and Kumar, Deepak, additional

Published

2019

7. TNFAIP8 promotes prostate cancer cell survival by inducing autophagy

Author

Niture, Suryakant, primary, Ramalinga, Malathi, additional, Kedir, Habib, additional, Patacsil, Dorrelyn, additional, Niture, Samiksha S., additional, Li, James, additional, Mani, Haresh, additional, Suy, Simeng, additional, Collins, Sean, additional, and Kumar, Deepak, additional

Published

2018

8. Multiple roles of RARRES1 in prostate cancer: Autophagy induction and angiogenesis inhibition

Author

Roy, Arpita, primary, Ramalinga, Malathi, additional, Kim, Okjin J., additional, Chijioke, Juliet, additional, Lynch, Solomon, additional, Byers, Stephen, additional, and Kumar, Deepak, additional

Published

2017

9. Abstract 2342: TNFAIP8 promotes prostate cancer cell survival by modulating autophagy

Author

Niture, Suresh, primary, Ramalinga, Malathi, additional, Kedir, Habib, additional, and Kumar, Deepak, additional

Published

2017

10. MicroRNAs in glioblastoma multiforme pathogenesis and therapeutics

Author

Shea, Amanda, primary, Harish, Varsha, additional, Afzal, Zainab, additional, Chijioke, Juliet, additional, Kedir, Habib, additional, Dusmatova, Shahnoza, additional, Roy, Arpita, additional, Ramalinga, Malathi, additional, Harris, Brent, additional, Blancato, Jan, additional, Verma, Mukesh, additional, and Kumar, Deepak, additional

Published

2016

11. MicroRNA-212 negatively regulates starvation induced autophagy in prostate cancer cells by inhibiting SIRT1 and is a modulator of angiogenesis and cellular senescence

Author

Ramalinga, Malathi, primary, Roy, Arpita, additional, Srivastava, Anvesha, additional, Bhattarai, Asmita, additional, Harish, Varsha, additional, Suy, Simeng, additional, Collins, Sean, additional, and Kumar, Deepak, additional

Published

2015

12. Abstract 590: RARRES1 is a modulator of angiogenesis and autophagy

Author

Roy, Arpita, primary, Kim, Okjin Jean, additional, Ramalinga, Malathi, additional, Lynch, Solomon, additional, Byers, Stephen, additional, and Kumar, Deepak, additional

Published

2014

13. Autophagy inhibitor 3-methyladenine potentiates apoptosis induced by dietary tocotrienols in breast cancer cells

Author

Tran, Anh Thu, primary, Ramalinga, Malathi, additional, Kedir, Habib, additional, Clarke, Robert, additional, and Kumar, Deepak, additional

Published

2014

14. MicroRNA Profiling in Prostate Cancer - The Diagnostic Potential of Urinary miR-205 and miR-214

Author

Srivastava, Anvesha, primary, Goldberger, Helle, additional, Dimtchev, Alexander, additional, Ramalinga, Malathi, additional, Chijioke, Juliet, additional, Marian, Catalin, additional, Oermann, Eric K., additional, Uhm, Sunghae, additional, Kim, Joy S., additional, Chen, Leonard N., additional, Li, Xin, additional, Berry, Deborah L., additional, Kallakury, Bhaskar V. S., additional, Chauhan, Subhash C., additional, Collins, Sean P., additional, Suy, Simeng, additional, and Kumar, Deepak, additional

Published

2013

15. Abstract 2422: Circulating miRNAs as potential biomarkers in prostate cancer pathogenesis.

Author

Srivastava, Anvesha, primary, Ramalinga, Malathi, additional, Kumar, Deepak, additional, Dimtchev, Alexander, additional, Chijioke, Juliet, additional, Soldin, Offie, additional, Li, Xin, additional, Marian, Catalin, additional, Suy, Simeng, additional, and Collins, Sean P., additional

Published

2013

16. Abstract 206: A single nucleotide polymorphism (SNP) rs35301225 (A/C/T) in pre-miR-34a alters the cell cycle regulation

Author

Srivastava, Anvesha, primary, Ramalinga, Malathi, additional, Suy, Simeng, additional, Collins, Sean P., additional, and Kumar, Deepak, additional

Published

2012

17. Abstract 5028: MicroRNA-212 targets multiple signaling pathways in prostate cancer

Author

Ramalinga, Malathi, primary, Srivastava, Anvesha, additional, Dimtchev, Alexander, additional, Soldin, Offie, additional, Li, James, additional, Marian, Catalin, additional, Suy, Simeng, additional, Collins, Sean P., additional, and Kumar, Deepak, additional

Published

2012