Lina Cui, Ph.D.

Associate Professor

Department: Medicinal Chemistry

Business Phone: (352) 273-7090

Business Email: linacui@ufl.edu

CV: View Curriculum Vitae

About Lina Cui

Lina Cui, Ph.D., obtained her B.Sc. in chemistry from Nankai University (China) in 2003. She continued her study in the University of Alberta (Canada) and obtained her Ph.D. degree in Organic Chemistry and Glycobiology in 2009 under the direction of Prof. David R. Bundle, the founding Director of the Alberta Glycomics Centre. Following graduate school, Dr. Cui spent two years (2009-2010) as a postdoctoral fellow with Prof. Jean M.J. Fréchet at UC Berkeley. Her postdoctoral training continued at Stanford University School of Medicine (2011-2014), where she worked with Prof. Jianghong Rao in the Molecular Imaging Program at Stanford (MIPS) directed by Prof. Sanjiv Sam Gambhir. In 2015, Dr. Cui joined the faculty of the Department of Chemistry and Chemical Biology as a tenure-track Assistant Professor at the University of New Mexico and UNM Comprehensive Cancer Center. In August 2018, she was recruited to the University of Florida and was appointed as a tenure-track assistant professor in the College of Pharmacy. In 2022, she was promoted with tenure to associate professor. Visit www.linacui.org for more details.

Teaching Profile

Courses Taught

2018,2020-2023

PHA5878C Pt Care 3: Cv and Pulm

2020

PHA7939 Journal Colloquy in Pharmacodynamics

2019-2024

PHA7979 Advanced Research

2019-2022

PHA6934 Seminar in Medicinal Chemistry

2020

PHA6971 Research for Master’s Thesis

2019-2024

PHA7980 Research for Doctoral Dissertation

2020,2022

PHA6910 Supervised Research

2020-2024

PHA6935 Selected Topics in Pharmacy

2018,2020-2024

PHA5439 Prin Med Chem-Pcol I

2021-2022

PHA4913 Undergraduate Research in Medicinal Chemistry

2021

PHA5930 Sem Pharm Research

2022-2024

PHA6467C Drug Design II

2022-2023

PHA6740 Fundamentals of Grant Writing in the Pharmaceutical Sciences

2022-2024

PHA6905C Research Procedures in Pharmaceutical Sciences

Research Profile

The Cui lab explores the biochemical activities of glycan processing enzymes and develops therapeutic and diagnostic molecules or tools for various types of cancer and age-related diseases (e.g. diabetes, neurodegeneration, etc). The interdisciplinary program integrates organic chemistry, molecular and cellular biology, and molecular imaging. Our current research explores the biochemistry of heparanase, a key enzyme involved in the remodeling of extracellular matrix. We are developing molecular probes to study the precise modes of heparanase activity using molecular imaging, as well as diagnostic tools and drug molecules targeting heparanase and related enzymes. Our lab also develops molecular tools to detect senescence and DNA damage, and we have applied these molecules in various collaborative projects to explore the progression of diabetes, neurodegeneration and other age-related diseases.

Open Researcher and Contributor ID (ORCID)

0000-0002-8149-5206

Publications

2024

Chemical toolbox to interrogate Heparanase-1 activity

Current Opinion in Chemical Biology. 80 [DOI] 10.1016/j.cbpa.2024.102452.

Publisher’s Site

2024

Novel PET Imaging Probe for Quantitative Detection of Senescence In Vivo

Journal of Medicinal Chemistry. 67(7):5924-5934 [DOI] 10.1021/acs.jmedchem.4c00179. [PMID] 38507820.

PubMed · Publisher’s Site

2023

Detecting cellular senescence in vivo: Imagining imaging better

Aging and Cancer. 4(3-4):97-110 [DOI] 10.1002/aac2.12067.

Publisher’s Site

2023

Discovery and development of small-molecule heparanase inhibitors

Bioorganic & Medicinal Chemistry. 90 [DOI] 10.1016/j.bmc.2023.117335. [PMID] 37257254.

PubMed · Publisher’s Site

2022

A Universal and Modular Scaffold for Heparanase Activatable Probes and Drugs

Bioconjugate Chemistry. 33(12):2290-2298 [DOI] 10.1021/acs.bioconjchem.2c00426. [PMID] 36346913.

PubMed · Publisher’s Site

2021

A self-immolative linker for heparanase activatable probes

bioRxiv. [DOI] 10.1101/2021.06.15.448502.

Publisher’s Site

2021

A Versatile Linker for Probes Targeting Hydrolases via In Situ labeling

bioRxiv. [DOI] 10.1101/2021.06.14.448363.

Publisher’s Site

2021

Dual‐Mechanism Quenched Fluorogenic Probe Provides Selective and Rapid Detection of Cathepsin L Activity**

ChemMedChem. 16(7):1082-1087 [DOI] 10.1002/cmdc.202000823. [PMID] 33295147.

2 citations · PubMed · Publisher’s Site

2021

Molecular probes for selective detection of cysteine cathepsins

Organic & Biomolecular Chemistry. [DOI] 10.1039/d1ob00225b. [PMID] 34288999.

6 citations · PubMed · Publisher’s Site

2021

Noninvasive NIR Imaging of Senescence via In Situ Labeling

Journal of Medicinal Chemistry. 64(24):17969-17978 [DOI] 10.1021/acs.jmedchem.1c01313. [PMID] 34752102.

12 citations · PubMed · Publisher’s Site

2021

Ultrasensitive small molecule fluorogenic probe for human heparanase

Chemical Science. 12(1):239-246 [DOI] 10.1039/d0sc04872k. [PMID] 34163592.

9 citations · PubMed · Publisher’s Site

2020

A Self-Immobilizing NIR Probe for Non-invasive Imaging of Senescence

bioRxiv. [DOI] 10.1101/2020.03.27.010827.

Publisher’s Site

2020

Cover Feature: Responsive Fluorophore Aggregation Provides Spectral Contrast for Fluorescence Lifetime Imaging (ChemBioChem 15/2020)

ChemBioChem. 21(15):2087-2087 [DOI] 10.1002/cbic.202000426.

Publisher’s Site

2020

Reduction TriggeredIn SituPolymerization in Living Mice

Journal of the American Chemical Society. 142(36):15575-15584 [DOI] 10.1021/jacs.0c07594. [PMID] 32804495.

23 citations · PubMed · Publisher’s Site

2020

Responsive Fluorophore Aggregation Provides Spectral Contrast for Fluorescence Lifetime Imaging

ChemBioChem. 21(15):2196-2204 [DOI] 10.1002/cbic.202000056. [PMID] 32180309.

4 citations · PubMed · Publisher’s Site

2019

[18F]-SuPAR: A Radiofluorinated Probe for Noninvasive Imaging of DNA Damage-Dependent Poly(ADP-ribose) Polymerase Activity

Bioconjugate Chemistry. 30(5):1331-1342 [DOI] 10.1021/acs.bioconjchem.9b00089.

Publisher’s Site

2019

A Self-Immobilizing NIR Probe forin vivoImaging of Chemotherapy Induced Senescence

Molecular and Cellular Biology / Genetics. [DOI] 10.1158/1538-7445.am2019-894.

Publisher’s Site

2019

Epigenetic control of heparanase expression through CRISPR/dCas9

Molecular and Cellular Biology / Genetics. [DOI] 10.1158/1538-7445.am2019-5234.

Publisher’s Site

2019

Real-time imaging of cellular senescence in living animals

Molecular and Cellular Biology / Genetics. [DOI] 10.1158/1538-7445.am2019-903.

Publisher’s Site

2019

Real-time imaging of senescence in tumors with DNA damage

Scientific Reports. 9(1) [DOI] 10.1038/s41598-019-38511-z. [PMID] 30765819.

27 citations · PubMed · Publisher’s Site

2016

Controlling the stereoselectivity of glycosylation via solvent effects

Canadian Journal of Chemistry. 94(11) [DOI] 10.1139/CJC-2016-0417.

Publisher’s Site

2015

2-Cyanobenzothiazole (CBT) Condensation for Site-Specific Labeling of Proteins at the Terminal Cysteine Residues

Site-Specific Protein Labeling. 81-92 [DOI] 10.1007/978-1-4939-2272-7_5.

Publisher’s Site

2014

Bioorthogonal cyclization-mediated in situ self-assembly of small-molecule probes for imaging caspase activity in vivo

Nature Chemistry. 6(6):519-526 [DOI] 10.1038/nchem.1920. [PMID] 24848238.

302 citations · PubMed · Publisher’s Site

2014

Caspase-responsive smart gadolinium-based contrast agent for magnetic resonance imaging of drug-induced apoptosis

Chem. Sci.. 5(10):3845-3852 [DOI] 10.1039/c4sc01392a.

Publisher’s Site

2014

Phosphorylcholine-Coated Semiconducting Polymer Nanoparticles as Rapid and Efficient Labeling Agents for In Vivo Cell Tracking

Advanced Healthcare Materials. 3(8):1292-1298 [DOI] 10.1002/adhm.201300534. [PMID] 24668903.

45 citations · PubMed · Publisher’s Site

2014

Real-time imaging of oxidative and nitrosative stress in the liver of live animals for drug-toxicity testing

Nature Biotechnology. 32(4):373-380 [DOI] 10.1038/nbt.2838. [PMID] 24658645.

373 citations · PubMed · Publisher’s Site

2014

Synthesis of modified Trichinella spiralis disaccharide epitopes and a comparison of their recognition by chemical mapping and saturation transfer difference NMR

Carbohydrate Research. 383:1-13 [DOI] 10.1016/j.carres.2013.10.012.

Publisher’s Site

2014

The Chemistry of Molecular Imaging

. [DOI] 10.1002/9781118854754.

Publisher’s Site

2012

Conjugation Chemistry through Acetals toward a Dextran-Based Delivery System for Controlled Release of siRNA

Journal of the American Chemical Society. 134(38):15840-15848 [DOI] 10.1021/ja305552u.

Publisher’s Site

2012

First Per-6-O-tritylation of Cyclodextrins

Organic Letters. 14(6):1612-1615 [DOI] 10.1021/ol300358u.

Publisher’s Site

2011

Acid-Degradable Cationic Dextran Particles for the Delivery of siRNA Therapeutics

Bioconjugate Chemistry. 22(6):1056-1065 [DOI] 10.1021/bc100542r. [PMID] 21539393.

102 citations · PubMed · Publisher’s Site

2011

Mannosylated Dextran Nanoparticles: A pH-Sensitive System Engineered for Immunomodulation through Mannose Targeting

Bioconjugate Chemistry. 22(5):949-957 [DOI] 10.1021/bc100596w.

Publisher’s Site

2011

Supramolecular Complexing of Membane Siglec CD22 Mediated by a Polyvalent Heterobifunctional Ligand that Templates on IgM

Bioconjugate Chemistry. 22(4):546-550 [DOI] 10.1021/bc100579d. [PMID] 21405019.

8 citations · PubMed · Publisher’s Site

2010

Synthesis of Monomeric and Dimeric Repeating Units of the Zwitterionic Type 1 Capsular Polysaccharide fromStreptococcus pneumoniae

Chemistry – A European Journal. 16(11):3476-3488 [DOI] 10.1002/chem.200902460.

Publisher’s Site

2009

From alpha to beta: identification of amino acids required for theN-acetyllactosamine-specific lectin-like activity of bundlin

Molecular Microbiology. 72(4):859-868 [DOI] 10.1111/j.1365-2958.2009.06679.x. [PMID] 19400799.

9 citations · PubMed · Publisher’s Site

Grants

Sep 2023 ACTIVE

Specific senescence detection in pancreatic islets

Role: Principal Investigator

Funding: NATL INST OF HLTH NIA

Jan 2023 ACTIVE

Exploring novel therapeutic strategies for combinatory therapy to treat renal clear cell carcinomas

Role: Co-Investigator

Funding: NATL INST OF HLTH NCI

Sep 2022 ACTIVE

STTR Subaward PET?probes for senescence detection in brain

Role: Principal Investigator

Funding: SENOTRAC BIOTECHNOLOGY via NATL INST OF HLTH NIA

May 2019 – Dec 2021

Development of Diagnostic Tools for Metastatic Melanoma via Imaging of Heparanase Activity

Role: Principal Investigator

Funding: US ARMY MED RES ACQUISITION

Aug 2018 – Jul 2023

Probing the role of heparanase via in situ labeling

Role: Principal Investigator

Funding: NATL INST OF HLTH NIGMS

Education

Postdoctoral Fellow

2011-2014 · Stanford University School of Medicine

Postdoctoral Fellow

2009-2010 · University of California at Berkeley

Ph.D.

2008 · University of Alberta

B.Sc.

2003 · Nankai University

Contact Details

Phones:

Business:: (352) 273-7090

Emails:

Business:: linacui@ufl.edu

Addresses:

Business Mailing:: PO Box 100485
GAINESVILLE FL 32610
Business Street:: MSB P5-31
1345 Center Drive
GAINESVILLE FL 326103003