Steven W. Barger

Federal Grant PI High Impact

Professor

UAMS

Last publication 2026 Last refreshed 2026-05-23

faculty

bargerstevenw@uams.edu

50 h-index 142 pubs 10,310 cited

Research Areas

Links

ORCID Google Scholar Lab Website Research Group UAMS TRI Profile

OverviewAI-generated summary

Steven W. Barger's research focuses on the pathogenesis of Alzheimer's disease and other neurodegenerative conditions. He has served as PI on two NIH/National Institute on Aging grants totaling $747,250. The first grant, funded at $374,850, investigated the role of glucose transport in Alzheimer's disease pathogenesis. The second grant, funded at $372,400, examined the compromised function of a glial glucose transporter in aging and Alzheimer's disease.

His recent publications explore various molecular and cellular mechanisms implicated in neurodegeneration. These include studies on lysosomal autophagic failure in Alzheimer's disease, the role of serine racemase expression in differentiating aging from Alzheimer's brains, and the inhibition of aggregation-mediated pathology by thiadiazolidinone analogs in diverse neurodegeneration models. Dr. Barger also investigates novel system xC− transport inhibitors to mitigate microglial glutamate release and neurotoxicity, and the effects of reelin fragments on cognitive deficits in mouse models. Further research includes examining endoplasmic reticulum stress in hypothalamic neurons and the association of P-glycoprotein substrates with Alzheimer's disease risk.

Dr. Barger collaborates with researchers from the University of Arkansas at Little Rock and within the University of Arkansas for Medical Sciences. His work has resulted in 147 publications, with 10,294 citations, and he holds an h-index of 49.

Metrics

h-index: 50
Publications: 142
Citations: 10,310

Selected Publications

Modulation of apolipoprotein E receptor-2 by ApoE4, amyloid β-peptide, reelin, and secreted amyloid precursor protein: a common point of impact in Alzheimer’s disease pathogenesis (2026)

DOI OpenAlex
Microglial serine racemase knockout alleviates Alzheimer-like neuropathology and behavioral deficit via lactylation-mediated anti-inflammation (2026)

DOI OpenAlex
Impact of P-Glycoprotein Substrates on Transendothelial Transport of Amyloid-β Peptide (2025)

DOI OpenAlex
Prescription-based association of P-glycoprotein substrates with Alzheimer's disease risk: A nested case-control study (2025)

1 citation DOI OpenAlex
P-glycoprotein and Alzheimer’s Disease: Threats and Opportunities (2025)

DOI OpenAlex
Rescue of ApoE4-related lysosomal autophagic failure in Alzheimer’s disease by targeted small molecules (2024)

20 citations DOI OpenAlex
Design, synthesis, and characterization of novel system xC− transport inhibitors: inhibition of microglial glutamate release and neurotoxicity (2023)

6 citations DOI OpenAlex
Thiadiazolidinone (TDZD) Analogs Inhibit Aggregation-Mediated Pathology in Diverse Neurodegeneration Models, and Extend C. elegans Life- and Healthspan (2023)

12 citations DOI OpenAlex
Central repeat fragment of reelin leads to active reelin intracellular signaling and rescues cognitive deficits in a mouse model of reelin deficiency (2023)

6 citations DOI OpenAlex
Design, synthesis, and characterization of novel Xc- transport inhibitors: Inhibition of microglial glutamate release and neurotoxicity (2023)

1 citation DOI OpenAlex
Amyloid β-Peptide Effects on Glucose Regulation Are Dependent on Apolipoprotein E Genotype (2023)

1 citation DOI OpenAlex
Liraglutide Counteracts Endoplasmic Reticulum Stress in Palmitate-Treated Hypothalamic Neurons without Restoring Mitochondrial Homeostasis (2022)

5 citations DOI OpenAlex
Glucose transport in the regulation of T-cell activation: the journey may be as important as the destination (2022)

DOI OpenAlex
Serine Racemase Expression Differentiates Aging from Alzheimer’s Brain (2022)

14 citations DOI OpenAlex
Amyloid β-peptide impacts on glucose regulation are dependent on apolipoprotein E genotype (2022)

DOI OpenAlex