JIE MENG | Neuroscience | Best Researcher Award

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Dr. JIE MENG | Neuroscience | Best Researcher AwardĀ šŸ†

Assistant Professor at Sichuan University, China.

Dr. Jie Meng is an Assistant Professor at Sichuan University, China. With expertise in [specific field, e.g., molecular biology, environmental science, engineering], Dr. Meng has contributed significantly to both research and teaching. His work focuses onDr. Meng has published [number] papers in reputed journals and actively participates in academic conferences. He is committed to advancing knowledge in his field while fostering a collaborative learning environment for students at Sichuan University.

Profile

ORCID

Scopus

Education šŸŽ“:

Jie Meng holds a Ph.D. in Neuroscience from Kyushu University, Japan, completed in 2019. This advanced education provided a solid foundation in understanding the intricate mechanisms underlying neurodegenerative diseases.

Work Experience šŸ’¼:

Jie Meng is currently an Intermediate Researcher at Sichuan University West China Hospital in Chengdu, China, a position held since 2019. In this role, Jie Meng conducts cutting-edge research into neurodegenerative diseases, focusing particularly on Alzheimerā€™s disease and Parkinsonā€™s disease.

Awards and Honors

Jie Mengā€™s exceptional contributions to the field of neuroscience have been recognized with several awards, including the Qinghai Province Science and Technology Award, where he received the Second Prize in Natural Science for his innovative work in neurodegeneration research.

Research Interests:

Jie Mengā€™s research primarily revolves around the mechanisms of neurodegenerative diseases, with a strong emphasis on microglia-mediated neuroinflammation in Alzheimer’s disease (AD). His work seeks to identify novel epigenetic biomarkers for early-onset Parkinsonā€™s disease (PD) and explore therapeutic strategies aimed at mitigating chronic neuroinflammation.,Investigating the role of microglia in neuroinflammation and how it contributes to AD progression.,Exploring epigenetic biomarkers that can aid in the early detection of Parkinsonā€™s disease.,Developing innovative therapeutic approaches to target chronic neuroinflammation in neurodegenerative disorders.

šŸ“š PublicationĀ 

  • Testing cognitive normal for Alzheimer’s disease prediction
    Citations: 0
    Year: 2025
    Authors: Meng, J., Lei, P.
    Journal: Journal of Neurochemistry

 

  • Iron promotes both ferroptosis and necroptosis in the early stage of reperfusion in ischemic stroke
    Citations: 2
    Year: 2024
    Authors: Du, B., Deng, Z., Chen, K., Tuo, Q.-Z., Lei, P.
    Journal: Genes and Diseases

 

 

  • How brain ā€˜cleanersā€™ fail: Mechanisms and therapeutic value of microglial phagocytosis in Alzheimer’s disease
    Citations: 12
    Year: 2024
    Authors: Ni, J., Xie, Z., Quan, Z., Meng, J., Qing, H.
    Journal: GLIA

 

  • Thrombin induces ferroptosis in triple-negative breast cancer through the cPLA2Ī±/ACSL4 signaling pathway
    Citations: 5
    Year: 2024
    Authors: Xu, S., Tuo, Q.-Z., Meng, J., Li, C.-L., Lei, P.
    Journal: Translational Oncology

 

 

  • Leucine-rich repeat kinase 2 (LRRK2) inhibition upregulates microtubule-associated protein 1B to ameliorate lysosomal dysfunction and parkinsonism
    Citations: 3
    Year: 2023
    Authors: Chen, K., Tang, F., Du, B., Lei, P., Wei, X.-W.
    Journal: MedComm

 

  • The Dual Nature of Microglia in Alzheimerā€™s Disease: A Microglia-Neuron Crosstalk Perspective
    Citations: 8
    Year: 2023
    Authors: Xie, Z., Meng, J., Wu, Z., Qing, H., Ni, J.
    Journal: Neuroscientist

 

  • Scopolamine causes delirium-like brain network dysfunction and reversible cognitive impairment without neuronal loss
    Citations: 8
    Year: 2023
    Authors: Wang, Q., Zhang, X., Guo, Y.-J., Yue, J.-R., Lei, P.
    Journal: Zoological Research

 

  • Microglial cathepsin E plays a role in neuroinflammation and amyloid Ī² production in Alzheimerā€™s disease
    Citations: 14
    Year: 2022
    Authors: Xie, Z., Meng, J., Kong, W., Qing, H., Ni, J.
    Journal: Aging Cell

 

  • Differential Expression and Distinct Roles of Proteinase-Activated Receptor 2 in Microglia and Neurons in Neonatal Mouse Brain After Hypoxia-Ischemic Injury
    Citations: 6
    Year: 2022
    Authors: Liu, Y., Li, H., Hu, J., Qing, H., Ni, J.
    Journal: Molecular Neurobiology

 

  • Nucleus distribution of cathepsin B in senescent microglia promotes brain aging through degradation of sirtuins
    Citations: 28
    Year: 2020
    Authors: Meng, J., Liu, Y., Xie, Z., Lei, P., Ni, J.
    Journal: Neurobiology of Aging

 

ConclusionĀ 

In conclusion, to fully assess Dr. Jie Mengā€™s suitability for the Best Researcher Award, one would need to gather detailed information on their research outputs, contributions to the field, collaborations, and overall recognition. If their work aligns with the criteria outlined above, Dr. Meng could very well be a strong contender for the award. Additionally, providing more details on their specific research achievements would allow for a more tailored evaluation and clearer recommendations for areas where they could continue to excel.

 

Prof Dr Ryszard Pluta | Neuroscience | Best Researcher Award

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Prof Dr Ryszard Pluta | Neuroscience | Best Researcher Award

MD.,PhD at Ā Medical University of Lublin , Poland

Dr. Ryszard Pluta is a distinguished neurologist and neuroscientist, with a medical degree from the Medical Academy in Lublin (1977) and a Ph.D. from the Polish Academy of Sciences (1983). He has served as a Professor at the Mossakowski Medical Research Institute and held prestigious postdoctoral fellowships at the NIH and NYS Institute for Basic Research. A recognized expert in brain ischemia and Alzheimer’s disease, Dr. Pluta has published extensively, including multiple influential books on the subject. He is a recipient of numerous awards and is an active member of several professional societies. His significant contributions to understanding the links between ischemia and Alzheimer’s have established him as a leading figure in neuropathology.

Profile:

ScopusĀ 

Education šŸŽ“

Ryszard Pluta earned his medical degree from the Medical Academy in Lublin (1971-1977) and attended Humboldt University in Berlin (1975) and the University of Cologne (1976). He completed his Ph.D. at the Polish Academy of Sciences in Warsaw (1983). He became an Associated Professor in 1992 and a full Professor in 2004 at the Mossakowski Medical Research Institute, Polish Academy of Sciences.

Work Experience šŸ’¼

Dr. Pluta has held prestigious positions, including postdoctoral fellowships at the NIH in Bethesda, USA (1986-1988), and the NYS Institute for Basic Research in New York (1988-1989). He has been a Visiting Professor at several renowned institutions, including the Max-Planck Institute for Neurological Research and Charles University in Prague.

Skills šŸ§ 

With extensive expertise in neuropathology and neurochemistry, Dr. Pluta specializes in brain ischemia and Alzheimer’s disease research. His skills encompass project management, collaboration with international research teams, and contributions to clinical studies in the field of neuroscience.

Awards and Honors šŸ†

Dr. Pluta has received numerous accolades, including recognition from the Polish Association of Neuropathologists (1980, 1986) and the Polish Academy of Sciences (1982, 1989, 1992). He was also honored by the International Brain Research Organization (1997) and the Alzheimerā€™s Association in Chicago (1998).

Membership šŸ¤

He is an active member of various professional organizations, including the Polish Association of Neuropathologists and the International Society of Neuropathology. Dr. Pluta is recognized among the World’s Top 2% scientists by Stanford University.

Teaching Experience šŸ“š

Dr. Pluta has contributed to the academic community through teaching positions at various universities, where he has shared his knowledge and expertise in neuropathology and neuroscience with students and researchers.

Research Focus šŸ”¬

His research focuses on brain ischemia, its relationship with Alzheimer’s disease, and associated neuropathological changes. He has made significant contributions, such as the documentation of identical changes in ischemic brains and those affected by Alzheimer’s, and the exploration of potential therapeutic approaches involving Ī²-amyloid peptide.

 

Publications:

  • Alpha-, Beta-, and Gamma-Secretase, Amyloid Precursor Protein, and Tau Protein Genes in the Hippocampal CA3 Subfield in an Ischemic Model of Alzheimer’s Disease with Survival up to 2 Years
    • Year: 2024
    • Journal: Journal of Alzheimer’s Disease
  • Trans- and Cis-Phosphorylated Tau Protein: New Pieces of the Puzzle in the Development of Neurofibrillary Tangles in Post-Ischemic Brain Neurodegeneration of the Alzheimerā€™s Disease-like Type
    • Year: 2024
    • Journal: International Journal of Molecular Sciences
  • A Look at the Etiology of Alzheimer’s Disease based on the Brain Ischemia Model
    • Year: 2024
    • Journal: Current Alzheimer Research
  • Apoptosis, Autophagy, and Mitophagy Genes in the CA3 Area in an Ischemic Model of Alzheimer’s Disease with 2-Year Survival
    • Year: 2024
    • Journal: Journal of Alzheimer’s Disease
  • Ischemia-Reperfusion Programming of Alzheimerā€™s Disease-Related Genesā€”A New Perspective on Brain Neurodegeneration after Cardiac Arrest
    • Year: 2024
    • Journal: International Journal of Molecular Sciences
  • LRP1 and RAGE Genes Transporting Amyloid and Tau Protein in the Hippocampal CA3 Area in an Ischemic Model of Alzheimerā€™s Disease with 2-Year Survival
    • Year: 2023
    • Journal: Cells
  • The Dual Role of Autophagy in Postischemic Brain Neurodegeneration of Alzheimerā€™s Disease Proteinopathy
    • Year: 2023
    • Journal: International Journal of Molecular Sciences
  • Preservation of Biomarkers Associated with Alzheimerā€™s Disease (Amyloid Peptides 1-38, 1-40, 1-42, Tau Protein, Beclin 1) in the Blood of Neonates after Perinatal Asphyxia
    • Year: 2023
    • Journal: International Journal of Molecular Sciences
  • Apitherapy in Post-Ischemic Brain Neurodegeneration of Alzheimerā€™s Disease Proteinopathy: Focus on Honey and Its Flavonoids and Phenolic Acids
    • Year: 2023
    • Journal: Molecules
  • Post-Ischemic Permeability of the Bloodā€“Brain Barrier to Amyloid and Platelets as a Factor in the Maturation of Alzheimerā€™s Disease-Type Brain Neurodegeneration
    • Year: 2023
    • Journal: International Journal of Molecular Sciences

Hilmar Bading | Neuroscience | Best Researcher Award

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Prof Dr Hilmar Bading | Neuroscience | Best Researcher AwardĀ 

Ā Professor and Head of Department at Heidelberg University, Germany

 

Professor Dr. Hilmar Bading is a distinguished neurobiologist currently serving as a Professor and Chair of the Department of Neurobiology at Heidelberg University, Germany. He is also the Director of the Interdisciplinary Center for Neurosciences (IZN) at the same institution.

professional profileĀ 

scopus

šŸŽ“ Education

Professor Bading completed his medical degree at Heidelberg University in 1984. He earned his doctorate (Dr. med.) under the supervision of Professor Wilhelm Hasselbach, with a focus on calcium transport ATPase in muscle at the Max-Planck-Institut fĆ¼r medizinische Forschung, Heidelberg.

šŸ’¼ Work Experience

Professor Bading has an extensive academic and research career. He has held key positions including Group Leader at the MRC Laboratory of Molecular Biology in Cambridge, England (1993-2001), and postdoctoral fellowships at Harvard Medical School, USA, and the Max-Planck-Institut fĆ¼r molekulare Genetik, Berlin. Since 2001, he has led the Department of Neurobiology at Heidelberg University. Additionally, he is the scientific founder of FundaMental Pharma GmbH and the founder of the Hilmar Bading Stiftung BrainAid.

šŸ”¬ Research Focus

His research primarily revolves around the molecular mechanisms that regulate gene expression in neurons, particularly focusing on the role of nuclear calcium in neuroprotection and neurodegeneration. His groundbreaking work has significantly advanced our understanding of how synaptic activity influences gene expression in the nervous system.

šŸ† Awards and Honors

Professor Bading’s contributions to science have been widely recognized. He has received several prestigious awards, including the Wolfgang-Paul-Prize from the Alexander von Humboldt-Foundation (2001), an ERC Advanced Grant (2008), and an ERC Proof-of-Concept Grant (2015). In 2019, he was elected as a member of the Leopoldina, the German National Academy of Sciences.

šŸ… Memberships

He has been an active member of several prominent scientific boards and commissions, including the Scientific Advisory Board of the Spemann Graduate School of Biology and Medicine at the University of Freiburg, the Commission of the International Max-Planck Research Schools, and the Wellcome Trust Neuroscience Panel in London.

šŸ‘Øā€šŸ« Teaching Experience

With a commitment to nurturing the next generation of scientists, Professor Bading has supervised over 25 PhD students as the principal supervisor and co-supervised an additional 50 PhD students. His dedication to teaching is also reflected in his guidance of approximately 80 Master’s and Bachelor’s theses over the past decade.

šŸ” Skills

Professor Bading’s expertise lies in molecular biology, neurobiology, and the study of intracellular signaling pathways. His leadership in academia and industry highlights his ability to translate scientific discoveries into practical applications.

publications

  • Neuronā€“astrocyte metabolic coupling facilitates spinal plasticity and maintenance of inflammatory pain
    • Year: 2024
    • Journal: Nature Metabolism
    • Authors: Marty-Lombardi, S., Lu, S., Ambroziak, W., Fleming, T., Siemens, J.
    • Emoji: šŸ§ šŸ”¬šŸ’”
  • TwinF interface inhibitor FP802 stops loss of motor neurons and mitigates disease progression in a mouse model of ALS
    • Year: 2024
    • Journal: Cell Reports Medicine
    • Authors: Yan, J., Wang, Y.M., Hellwig, A., Bading, H.
    • Emoji: šŸ¦ šŸ§¬šŸ”¬
  • Activin A targets extrasynaptic NMDA receptors to ameliorate neuronal and behavioral deficits in a mouse model of Huntington disease
    • Year: 2023
    • Journal: Neurobiology of Disease
    • Authors: Nassrallah, W.B., Ramandi, D., Cheng, J., Bading, H., Raymond, L.A.
    • Emoji: šŸ§ šŸ’‰šŸ§©
  • The Disruption of NMDAR/TRPM4 Death Signaling with TwinF Interface Inhibitors: A New Pharmacological Principle for Neuroprotection
    • Year: 2023
    • Journal: Pharmaceuticals
    • Authors: Yan, J., Bading, H.
    • Emoji: šŸ’ŠšŸ§¬šŸ”’
  • Expression of the primate-specific LINC00473 RNA in mouse neurons promotes excitability and CREB-regulated transcription
    • Year: 2023
    • Journal: Journal of Biological Chemistry
    • Authors: Pruunsild, P., Bengtson, C.P., Loss, I., Lohrer, B., Bading, H.
    • Emoji: šŸ§¬šŸ§ šŸ“ˆ
  • Ryanodine Receptor Mediated Calcium Release Contributes to Ferroptosis Induced in Primary Hippocampal Neurons by GPX4 Inhibition
    • Year: 2023
    • Journal: Antioxidants
    • Authors: Gleitze, S., RamĆ­rez, O.A., Vega-VĆ”squez, I., Paula-Lima, A., Hidalgo, C.
    • Emoji: šŸ§ŖšŸ§¬šŸ’„
  • Neuronal nuclear calcium signaling suppression of microglial reactivity is mediated by osteoprotegerin after traumatic brain injury
    • Year: 2022
    • Journal: Journal of Neuroinflammation
    • Authors: Frƶhlich, A., Olde Heuvel, F., Rehman, R., Bading, H., Roselli, F.
    • Emoji: šŸ§ āš•ļøšŸ”§
  • N-methyl-D-aspartate Receptor-mediated Preconditioning Mitigates Excitotoxicity in Human Induced Pluripotent Stem Cell-derived Brain Organoids
    • Year: 2022
    • Journal: Neuroscience
    • Authors: Bauersachs, H.G., Bengtson, C.P., Weiss, U., Pruunsild, P., Bading, H.
    • Emoji: šŸ§ŖšŸ§ šŸŒ±
  • Dysregulation of Npas4 and Inhba expression and an altered excitation-inhibition balance are associated with cognitive deficits in DBA/2 mice
    • Year: 2022
    • Journal: Learning and Memory
    • Authors: OberlƤnder, K., Witte, V., Mallien, A.S., Bengtson, C.P., Bading, H.
    • Emoji: šŸ§ šŸ§©šŸ“‰
  • Disrupted expression of mitochondrial NCLX sensitizes neuroglial networks to excitotoxic stimuli and renders synaptic activity toxic
    • Year: 2022
    • Journal: Journal of Biological Chemistry
    • Authors: Hagenston, A.M., Yan, J., Bas-Orth, C., Sekler, I., Bading, H.
    • Emoji: šŸ§¬āš ļøšŸ§