Fan Zhang | Proteomics | Best Researcher Award

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Dr. Fan Zhang | Proteomics | Best Researcher Award

Fan Zhang, born on September 23, 1991, is a postdoctoral researcher specializing in cancer proteogenomics 🔬. He is currently with the Department of Pathology at Duke University 🏛️. His research leverages mass spectrometry and bioinformatics 🖥️ to investigate metabolic pathways in therapy-resistant prostate cancer and other malignancies. He has received the FY23 Prostate Cancer Research Program Early Investigator Research Award 🏆 for his work on glutamine metabolism in advanced prostate cancer. His contributions to proteogenomics have resulted in multiple high-impact publications 📄 in Nature Communications, Cell Research, and Molecular & Cellular Proteomics. Proficient in LC-MS/MS, bioinformatics analysis, and experimental techniques, his research bridges the gap between basic cancer biology and clinical applications 🏥, paving the way for novel therapeutic strategies in oncology.

Profile

Education 🎓

Fan Zhang holds a Ph.D. in Biochemistry and Molecular Biology from Fudan University (2015-2020), where he focused on proteogenomic research. He further pursued postdoctoral training in Clinical Medicine at Fudan University (2020-2022) before joining Duke University as a postdoctoral researcher in the Department of Pathology in 2023. His academic journey began with a B.S. in Applied Biological Science from Anhui Agricultural University (2011-2015). Throughout his education, he gained expertise in genomics, transcriptomics, and proteomics, developing a strong foundation in bioinformatics and experimental methodologies. His interdisciplinary training has equipped him with skills in mass spectrometry-based proteomics, omics data analysis, and cancer metabolism research. His current research at Duke University focuses on metabolic vulnerabilities in prostate cancer, aiming to develop targeted therapies. His diverse academic background enables him to integrate various scientific disciplines, contributing significantly to cancer research and precision medicine.

Experience 👨‍🏫

Fan Zhang has extensive research experience in cancer proteogenomics. Currently a postdoctoral researcher at Duke University (2023-present), he investigates metabolic vulnerabilities in prostate cancer using advanced mass spectrometry and omics analysis. Previously, he was a postdoc in Clinical Medicine at Fudan University (2020-2022), where he contributed to proteogenomic studies on various cancers, including pituitary neuroendocrine tumors and diffuse large B-cell lymphoma. His Ph.D. at Fudan University (2015-2020) focused on proteogenomic characterizations of cancer, leading to high-impact publications. He is proficient in LC-MS/MS, bioinformatics, and experimental methodologies such as Western blotting, immunofluorescence, and cell culture. His research integrates mass spectrometry with genomics and transcriptomics to uncover novel therapeutic targets. With expertise in multi-omics data analysis, he has significantly contributed to the field of cancer biology. His work is supported by prestigious grants, highlighting his role as a leading researcher in proteogenomics and precision oncology.

Research Interests 🔬

Fan Zhang’s research focuses on proteogenomics and cancer metabolism, particularly in therapy-resistant malignancies like prostate cancer, pituitary neuroendocrine tumors, and diffuse large B-cell lymphoma. He specializes in mass spectrometry-based proteomics (DDA, DIA) and integrates multi-omics approaches, including genomics, transcriptomics, and metabolomics, to uncover novel cancer vulnerabilities. His current work at Duke University investigates glutamine metabolism in castration-resistant prostate cancer, aiming to develop targeted therapies. His expertise extends to bioinformatics analysis, large-cohort omics data interpretation, and advanced LC-MS/MS techniques for various biological samples. His research has led to multiple high-impact publications, highlighting his ability to translate complex molecular data into potential clinical applications. By combining experimental and computational approaches, he aims to identify biomarkers and therapeutic targets that can improve cancer treatment. His contributions to proteogenomics play a crucial role in advancing precision oncology and understanding the metabolic reprogramming of aggressive cancers.

 

Awards & Recognitions 🏅

Fan Zhang has received multiple awards and recognitions for his contributions to cancer proteogenomics. He was awarded the Fiscal Year 2023 (FY23) Prostate Cancer Research Program (PCRP) Early Investigator Research Award (2023-2025) for his project on targeting glutamine metabolism in advanced prostate cancer (Award Number HT9425-24-1-0237). His research has been recognized through multiple first-author and co-first-author publications in high-impact journals such as Nature Communications, Molecular & Cellular Proteomics, Cell Research, and The Prostate. His work has also been featured as a cover article in Cell Research (2022). His expertise in mass spectrometry, proteogenomics, and bioinformatics has positioned him as a leading young investigator in the field. In addition to research grants, he has received accolades for his innovative contributions to metabolic studies in oncology. His commitment to advancing cancer research has been instrumental in developing novel therapeutic strategies for therapy-resistant malignancies.

Publications 📚

Natalia Baran | Cancer Research | Best Researcher Award

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Assist. Prof. Dr. Natalia Baran | Cancer Research | Best Researcher Award

Leading Attending at InselSpital Bern, Switzerland.

Dr. Natalia Baran is an Assistant Professor in the Department of Leukemia at MD Anderson Cancer Center, where she focuses on developing novel therapeutic strategies targeting metabolic vulnerabilities in leukemia. Her expertise lies in understanding how metabolic reprogramming can lead to drug resistance and contribute to leukemia progression. With a medical background and extensive experience in both clinical and research settings, Dr. Baran has been at the forefront of studies that aim to modulate metabolic pathways to enhance anti-leukemic responses. By combining insights from molecular biology, immunology, and clinical practice, she is actively working toward discovering innovative treatments for leukemia. Dr. Baran’s research holds great promise in advancing leukemia therapy, particularly by targeting metabolic reprogramming in the context of therapy resistance. Her multidisciplinary approach, integrating clinical data with laboratory research, makes her a key figure in leukemia research.

Profile

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Orcid

Education:

Dr. Natalia Baran completed her undergraduate studies in Biotechnology, earning a Master of Science degree in 2006 from Wroclaw University of Science and Technology in Poland. She further pursued medical education and obtained her Medical Doctor (MD) degree from Wroclaw Medical University in 2007. Driven by her passion for research, Dr. Baran earned a Ph.D. in Medicine from the University of Bonn in 2015. Her doctoral research laid the foundation for her current focus on leukemia and metabolic reprogramming. In addition, Dr. Baran underwent extensive postdoctoral training at MD Anderson Cancer Center, where she honed her expertise in hematology and oncology, contributing significantly to translational research in leukemia. Her diverse educational background, blending science and medicine, has shaped her comprehensive approach to cancer research.

Professional Experience:

Dr. Baran has a rich professional experience that bridges clinical practice and cutting-edge research. After completing her MD, she pursued clinical residencies in Internal Medicine, Hematology, and Oncology at prestigious German institutions, including the University of Heidelberg and the University of Bonn. This clinical experience laid the groundwork for her subsequent focus on leukemia research. In 2016, she joined MD Anderson Cancer Center as a Postdoctoral Fellow in the Department of Leukemia. During her postdoctoral tenure, Dr. Baran worked closely with Dr. Marina Konopleva, exploring the role of metabolic pathways in leukemia resistance. By 2022, she had transitioned to an Assistant Professor role, continuing her translational research in leukemia, with a particular emphasis on identifying novel therapeutic strategies. Her clinical and research experiences synergize to enhance her contributions to the leukemia research community.

Research Interests:

Dr. Baran’s research is primarily centered on exploring metabolic vulnerabilities and their role in acute myeloid leukemia (AML) and acute lymphoblastic leukemia (ALL). Her work seeks to understand the mechanisms through which metabolic reprogramming in leukemia cells contributes to drug resistance and tumor progression. Dr. Baran is particularly interested in how modulating the metabolic environment can enhance the effectiveness of leukemia therapies. By focusing on the interplay between metabolism and leukemic cell survival, she aims to identify new therapeutic strategies that target metabolic pathways to overcome resistance to traditional treatments. Her research also explores how immune modulation can be integrated with metabolic interventions to develop more efficient leukemia therapies.

Awards and Honors:

Dr. Baran has received recognition for her contributions to leukemia research, although specific awards are not detailed in available sources. However, her research has been featured prominently in major scientific forums, including the Annual Metabolism in Cancer Symposium organized by MD Anderson. Her work has earned her respect within the scientific community, as evidenced by her continued role as an Assistant Professor and her involvement in prestigious cancer research initiatives. Dr. Baran’s impact is evident in her ongoing efforts to bridge the gap between basic science and clinical application, aiming to revolutionize leukemia treatment.

Skills:

Dr. Baran’s research skills encompass a wide range of techniques in molecular biology, cell culture, and metabolic analysis. She is highly proficient in studying the metabolic pathways that drive leukemia, using state-of-the-art technologies such as high-resolution metabolic flux analysis, RNA sequencing, and advanced cell imaging. Dr. Baran is skilled at integrating basic science with clinical data, ensuring that her research translates into practical therapeutic interventions. Her expertise in immunology further complements her research in leukemia, allowing her to investigate the potential of combining metabolic therapies with immune modulation to improve patient outcomes. Her interdisciplinary approach is a key strength in her ongoing work in leukemia research.

Publication Top Notes

A Selective BCL-XL PROTAC Degrader Achieves Safe and Potent Antitumor Activity

  • Authors: S Khan, X Zhang, D Lv, Q Zhang, Y He, P Zhang, X Liu, D Thummuri, et al.
  • Journal: Nature Medicine
  • Volume: 25(12), Pages 1938–1947
  • Cited by: 515
  • Year: 2019

Targeting a Cytokine Checkpoint Enhances the Fitness of Armored Cord Blood CAR-NK Cells

  • Authors: M Daher, R Basar, E Gokdemir, N Baran, N Uprety, AK Nunez Cortes, et al.
  • Journal: Blood, The Journal of the American Society of Hematology
  • Volume: 137(5), Pages 624–636
  • Cited by: 226
  • Year: 2021

Inhibiting Glutaminase in Acute Myeloid Leukemia: Metabolic Dependency of Selected AML Subtypes

  • Authors: P Matre, J Velez, R Jacamo, Y Qi, X Su, T Cai, SM Chan, A Lodi, et al.
  • Journal: Oncotarget
  • Volume: 7(48), Pages 79722
  • Cited by: 194
  • Year: 2016

Complex I Inhibitor of Oxidative Phosphorylation in Advanced Solid Tumors and Acute Myeloid Leukemia: Phase I Trials

  • Authors: TA Yap, N Daver, M Mahendra, J Zhang, C Kamiya-Matsuoka, et al.
  • Journal: Nature Medicine
  • Volume: 29(1), Pages 115–126
  • Cited by: 182
  • Year: 2023

Molecular Pathways: Hypoxia-Activated Prodrugs in Cancer Therapy

  • Authors: N Baran, M Konopleva
  • Journal: Clinical Cancer Research
  • Volume: 23(10), Pages 2382–2390
  • Cited by: 126
  • Year: 2017

Combining AFM13, a Bispecific CD30/CD16 Antibody, with Cytokine-Activated Blood and Cord Blood–Derived NK Cells Facilitates CAR-Like Responses Against CD30+ Malignancies

  • Authors: LN Kerbauy, ND Marin, M Kaplan, PP Banerjee, MM Berrien-Elliott, et al.
  • Journal: Clinical Cancer Research
  • Volume: 27(13), Pages 3744–3756
  • Cited by: 117
  • Year: 2021

Clonal Selection and Therapy Resistance in Acute Leukemias: Mathematical Modelling Explains Different Proliferation Patterns at Diagnosis and Relapse

  • Authors: T Stiehl, N Baran, AD Ho, A Marciniak-Czochra
  • Journal: Journal of The Royal Society Interface
  • Volume: 11(94), Article ID 20140079
  • Cited by: 106
  • Year: 2014

Activation of RAS/MAPK Pathway Confers MCL-1 Mediated Acquired Resistance to BCL-2 Inhibitor Venetoclax in Acute Myeloid Leukemia

  • Authors: Q Zhang, B Riley-Gillis, L Han, Y Jia, A Lodi, H Zhang, S Ganesan, R Pan, et al.
  • Journal: Signal Transduction and Targeted Therapy
  • Volume: 7(1), Article ID 51
  • Cited by: 104
  • Year: 2022

Conclusion:

Dr. Natalia Baran is a prominent researcher whose work in leukemia has the potential to transform therapeutic approaches, especially through targeting metabolic pathways. Her strong academic background, combined with extensive clinical and research experience, enables her to address one of the most pressing challenges in leukemia treatment: drug resistance. By focusing on metabolic reprogramming, Dr. Baran is paving the way for innovative strategies to combat leukemia and improve patient outcomes. Her expertise in integrating basic research with clinical applications ensures that her contributions will have a lasting impact on the field of oncology, particularly in the development of new, more effective therapies for leukemia.