The pathophysiology of excess plasma-free cholesterolGillard, BK, Rosales, C, Gotto, AM & Pownall, HJ 2023, ,
Current opinion in lipidology, vol. 34, no. 6, PMID: 37732779, pp. 278-286.
https://doi.org/10.1097/MOL.0000000000000899,
https://doi.org/10.1097/MOL.0000000000000899 The pathophysiology of excess plasma-free cholesterolGillard, BK, Rosales, C, Gotto, AM & Pownall, HJ 2023, ,
Current opinion in lipidology, vol. 34, no. 6, pp. 278-286.
https://doi.org/10.1097/MOL.0000000000000899 Serum Opacity Factor Normalizes Erythrocyte Morphology in Scarb1-/- Mice in an HDL-Free Cholesterol-Dependent Way.Wang, Z, Yelamanchili, D, Liu, J
, Gotto, AM, Rosales, C, Gillard, BK & Pownall, HJ 2023, ,
Journal of lipid research, vol. 64, no. 11, 100456, pp. 100456.
https://doi.org/10.1016/j.jlr.2023.100456,
https://doi.org/10.1016/J.JLR.2023.100456 Normalization of Erythrocyte Morphology in Scarb1-/- Mice by Bacterial Serum Opacity Factor is HDL-Free Cholesterol DependentRosales, C, Wang, Z, Yelamanchili, D, Gotto, A, Gillard, BK & Pownall, HJ 2023, , ASBMB Deuel Conference on Lipids, Dana Point, CA, 3/7/23 - 3/10/23.
Serum opacity factor rescues fertility among female Scarb1-/- mice by reducing HDL-free cholesterol bioavailabilityRosales, C, Yelamanchili, D
, Gillard, BK, Liu, J
, Gotto, AM & Pownall, HJ 2023, ,
Journal of lipid research, vol. 64, no. 2, 100327, pp. 100327.
https://doi.org/10.1016/j.jlr.2022.100327 The pathophysiology of excess plasma-free cholesterol.Gillard, BK, Rosales, C, Gotto, A & Pownall, HJ 2023, , Current opinion in lipidology, vol. 34, PMID: 37732779, pp. 278-286.
Serum Opacity Factor Normalizes Erythrocyte Morphology in Scarb1-/- Mice in an HDL-Free Cholesterol-Dependent Way.Wang, Z, Yelamanchili, D, Liu, J, Gotto, A, Rosales, C, Gillard, BK & Pownall, HJ 2023, , Journal of lipid research.
Serum opacity factor normalizes erythrocyte morphology in Scarb1-/- mice in an HDL-free cholesterol-dependent wayWang, Z, Yelamanchili, D, Liu, J
, Gotto, AM, Rosales, C, Gillard, BK & Pownall, HJ 2023, ,
Journal of lipid research, vol. 64, no. 11, 100456.
https://doi.org/10.1016/J.JLR.2023.100456 Serum Opacity Factor Rescues Fertility among Female Scarb1-/- Mice by Reducing HDL-Free Cholesterol BioavailabilityRosales, C, Yelamanchili, D, Gillard, BK, Liu, J, Gotto, A & Pownall, HJ 2022, , Journal of lipid research, vol. 64, no. 2, PMID: 36596339.
The Role of Apolipoprotein A1 in Cholesterol TransportBrenner, D, Chandra, M, Abe, R, Yelamanchili, D, Gillard, BK, Rosales, C & Pownall, HJ 2022, , 5th Annual Summer Science Symposium, Houston, United States, 8/4/22 - 8/5/22.
Excess HDL Free Cholesterol Bioavailability Drives Free Cholesterol Accretion into Macrophages and Erythrocytes in SCRAB1-/- miceGillard, BK, Wang, Z, Liu, J, Yelamanchili, D, Gotto, A, Rosales, C & Pownall, HJ 2022, , AHA Vascular Discovery: From Genes to Medicine 2022 Scientific Sessions, Seattle, United States, 5/12/22 - 5/14/22.
Serum Opacity Factor Normalizes Dysfunctionnal High Density Lipoproteins in SRBI-/- Female Mice and Rescues Fertility.Yelamanchili, D, Gillard, BK, Pownall, HJ, Gotto, A & Rosales, C 2022, , AHA Vascular Discovery: From Genes to Medicine 2022 Scientific Sessions, Seattle, United States, 5/12/22 - 5/14/22.
Excess HDL Free Cholesterol Bioavailability Drives Free Cholesterol Accretion into Macrophages and Erythrocytes in SCRAB1-/- mice.Gillard, BK, Wang, Z, Liu, J, Yelamanchili, D, Gotto, A, Rosales, C & Pownall, HJ 2022, , ASBMB Deuel Conference on Lipids, Monterey, United States, 3/1/22 - 3/4/22.
Serum Opacity Factor Normalizes Dysfunctionnal High Density Lipoproteins in SRBI-/- Female Mice and Rescues Fertility.Yelamanchili, D, Gillard, BK, Pownall, HJ, Gotto, A & Rosales, C 2022, , ASBMB Deuel Conference on Lipids, Monterey, United States, 3/1/22 - 3/4/22.
Serum Opacity Factor Rescues Fertility among Female Scarb1-/- Mice by Reducing HDL-Free Cholesterol Bioavailability.Rosales, C, Yelamanchili, D, Gillard, BK, Liu, J, Gotto, A & Pownall, HJ 2022, , Journal of lipid research, vol. 64, no. 2, PMID: 36596339.
Physico-chemical and physiological determinants of lipo-nanoparticle stabilityPownall, HJ, Liu, J
, Gillard, BK, Yelamanchili, D
& Rosales, C 2021, ,
Nanomedicine: Nanotechnology, Biology, and Medicine, vol. 33, 102361.
https://doi.org/10.1016/j.nano.2021.102361 High-density lipoproteins, reverse cholesterol transport and atherogenesisPownall, HJ, Rosales, C, Gillard, BK & Gotto, AM 2021, ,
Nature Reviews Cardiology, vol. 18, no. 10, pp. 712-723.
https://doi.org/10.1038/s41569-021-00538-z High Free Cholesterol Bioavailability Drives the Tissue Pathologies in Scarb1-/-MiceLiu, J
, Gillard, BK, Yelamanchili, D
, Gotto, AM, Rosales, C & Pownall, HJ 2021, ,
Arteriosclerosis, Thrombosis, and Vascular Biology, vol. 41, no. 10, pp. E453-E467.
https://doi.org/10.1161/ATVBAHA.121.316535 Highly conserved amino acid residues in apolipoprotein A1 discordantly induce high density lipoprotein assembly in vitro and in vivoYelamanchili, D, Liu, J
, Gotto, AM, Hurley, AE, Lagor, WR
, Gillard, BK, Davidson, WS
, Pownall, HJ & Rosales, C 2020, ,
Biochimica et Biophysica Acta - Molecular and Cell Biology of Lipids, vol. 1865, no. 12, 158794, pp. 158794.
https://doi.org/10.1016/j.bbalip.2020.158794 Dietary Alcohol and Fat Differentially Affect Plasma Cholesteryl Ester Transfer Activity and Triglycerides in Normo- and Hypertriglyceridemic SubjectsGaubatz, JW
, Gillard, BK, Rosales, C & Pownall, HJ 2020, ,
Lipids, vol. 55, no. 4, pp. 299-307.
https://doi.org/10.1002/lipd.12237 
