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1. The Functional Significance of High Cysteine Content in Eye Lens γ-Crystallins

   https://doi.org/10.3390/biom14050594  

   Serebryany, Eugene; Martin, Rachel W; Takahashi, Gemma R (May 2024, Biomolecules)

   Cataract disease is strongly associated with progressively accumulating oxidative damage to the extremely long-lived crystallin proteins of the lens. Cysteine oxidation affects crystallin folding, interactions, and light-scattering aggregation especially strongly due to the formation of disulfide bridges. Minimizing crystallin aggregation is crucial for lifelong lens transparency, so one might expect the ubiquitous lens crystallin superfamilies (α and βγ) to contain little cysteine. Yet, the Cys content of γ-crystallins is well above the average for human proteins. We review literature relevant to this longstanding puzzle and take advantage of expanding genomic databases and improved machine learning tools for protein structure prediction to investigate it further. We observe remarkably low Cys conservation in the βγ-crystallin superfamily; however, in γ-crystallin, the spatial positioning of Cys residues is clearly fine-tuned by evolution. We propose that the requirements of long-term lens transparency and high lens optical power impose competing evolutionary pressures on lens βγ-crystallins, leading to distinct adaptations: high Cys content in γ-crystallins but low in βB-crystallins. Aquatic species need more powerful lenses than terrestrial ones, which explains the high methionine content of many fish γ- (and even β-) crystallins. Finally, we discuss synergies between sulfur-containing and aromatic residues in crystallins and suggest future experimental directions. 

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2. Synthesis and conformational preferences of peptides and proteins with cysteine sulfonic acid

   https://doi.org/10.1039/D3OB00179B  

   Bhatt, Megh R.; Zondlo, Neal J. (March 2023, Organic & Biomolecular Chemistry)

   Cysteine sulfonic acid (Cys-SO3H; cysteic acid) is an oxidative post-translational modification of cysteine, resulting from further oxidation from cysteine sulfinic acid (Cys- SO2H). Cysteine sulfonic acid is considered an irreversible post-translational modification, which serves as a biomarker of oxidative stress that has resulted in oxidative damage to proteins. Cysteine sulfonic acid is anionic, as a sulfonate (Cys-SO –; cysteate), in the ionization state that 3 is almost exclusively present at physiological pH (pKa ~ –2). In order to understand protein structural changes that can occur upon oxidation to cysteine sulfonic acid, we analyzed its conformational preferences, using experimental methods, bioinformatics, and DFT-based computational analysis. Cysteine sulfonic acid was incorporated into model peptides for α-helix and polyproline II helix (PPII). Within peptides, oxidation of cysteine to the sulfonic acid proceeds rapidly and efficiently at room temperature in solution with methyltrioxorhenium (MeReO3) and H2O2. Peptides containing cysteine sulfonic acid were also generated on solid phase using trityl-protected cysteine and oxidation with MeReO3 and H2O2. Using methoxybenzyl (Mob)-protected cysteine, solid-phase oxidation with MeReO3 and H2O2 generated the Mob sulfone precursor to Cys-SO – within fully synthesized peptides. These two solid-phase methods allow the synthesis of peptides containing either Cys-SO – or Cys-SO – in a 32 practical manner, with no solution-phase synthesis required. Cys-SO – had low PPII propensity 3 for PPII propagation, despite promoting a relatively compact conformation in φ. In contrast, in a PPII initiation model system, Cys-SO – promoted PPII relative to neutral Cys, with PPII initiation similar to Cys thiolate but less than Cys-SO – or Ala. In an α-helix model system, Cys- 2 SO – promoted α-helix near the N-terminus, due to favorable helix dipole interactions and 3 favorable α-helix capping via a sulfonate-amide side chain-main chain hydrogen bond. Across all peptides, the sulfonate side chain was significantly less ordered than that of the sulfinate. Analysis of Cys-SO – in the PDB revealed a very strong propensity for local (i/i or i/i+1) side 3 chain-main chain sulfonate-amide hydrogen bonds for Cys-SO –, with > 80% of Cys-SO – 33 residues exhibiting these interactions. DFT calculations conducted to explore these conformational preferences indicated that side chain-main chain hydrogen bonds of the sulfonate with the intraresidue amide and/or with the i+1 amide were favorable. However, hydrogen bonds to water or to amides, as well as interactions with oxophilic metals, were weaker for the sulfonate than the sulfinate, due to lower charge density on the oxygens in the sulfonate. 

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3. Metal−Organic Polyhedron with Four Fe(III) Centers Producing Enhanced T1 Magnetic Resonance Imaging Contrast in Tumors

   https://doi.org/doi.org/10.1021/acs.inorgchem.1c03660  

   Gregory E. Sokolow, Matthew R. (January 2022, Inorganic chemistry)

   ABSTRACT: A metal organic polyhedron (MOP) with four paramagnetic Fe(III) centers was studied as a magnetic reso-nance imaging (MRI) probe. The MOP was characterized in solution by using EPR and UV-vis spectroscopies, FT-ICR mass spectrometry, and in the solid state with single crystal x-ray diffraction. Water proton T1 relaxation properties were examined in solution and showed significant enhancement in the presence of human serum albumin (HSA). The r1 relaxivities in the absence and presence of HSA were 8.7 mM-1s-1 and 21 mM-1s-1, respectively, per molecule (2.2 and 5.3 per Fe) at 4.7 T, 37 °C. In vivo studies of the iron MOP show strong contrast enhancement of blood pool even at a low dose of 0.025 mmol/kg with prolonged residence in vasculature and clearance through the intestinal tract of mice. The MOP binds strongly to serum albumin and shows comparable accumulation in a murine tumor model as a covalently linked Gd-HSA contrast agent. 

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4. Synthesis, characterization, and biophysical interaction studies of water-dispersible polypyrrole/polythiophene co-oligomers with bovine serum albumin and human serum albumin: an experimental and theoretical approach

   https://doi.org/10.1039/D2NJ05791C  

   Riaz, Ufana; Farooq, Aaliyah; Nabi, Nuzhat; Nwanze, Faith R; Yan, Fei (March 2023, New Journal of Chemistry)

   The present work reports the synthesis of water-dispersible polypyrrole (WD-PPy) and polythiophene (WD-PTh) copolymers in different weight ratios and their characterization using experimental and theoretical techniques. The copolymers were spectroscopically characterized using experimental 13 C-NMR, FTIR, and UV-visible studies, and theoretical FTIR and UV-visible studies. The theoretical frequency and UV-visible data were computed using Gaussian 09 software with the functional DFT/B3LYP method and 6-31G(d) basis set. For the first time, biophysical interaction studies were carried out using bovine serum albumin (BSA) and human serum albumin (HSA) for these polymers which are not yet reported in the literature. The results showed strong binding of the co-oligomers with BSA/HSA which could be utilized in designing potent inhibitors and biosensors. 

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5. Secured delivery of basic fibroblast growth factor using human serum albumin-based protein nanoparticles for enhanced wound healing and regeneration

   https://doi.org/10.1186/s12951-023-02053-4  

   Son, Boram; Kim, Minju; Won, Hyosub; Jung, Ara; Kim, Jihyun; Koo, Yonghoe; Lee, Na Kyeong; Baek, Seung-Ho; Han, Uiyoung; Park, Chun Gwon; et al (December 2023, Journal of Nanobiotechnology)

   Abstract BackgroundBasic fibroblast growth factor (bFGF) is one of the critical components accelerating angiogenesis and tissue regeneration by promoting the migration of dermal fibroblasts and endothelial cells associated with matrix formation and remodeling in wound healing process. However, clinical applications of bFGF are substantially limited by its unstable nature due to rapid decomposition under physiological microenvironment. ResultsIn this study, we present the bFGF-loaded human serum albumin nanoparticles (HSA-bFGF NPs) as a means of enhanced stability and sustained release platform during tissue regeneration. Spherical shape of the HSA-bFGF NPs with uniform size distribution (polydispersity index < 0.2) is obtainedviaa simple desolvation and crosslinking process. The HSA-bFGF NPs securely load and release the intact soluble bFGF proteins, thereby significantly enhancing the proliferation and migration activity of human dermal fibroblasts. Myofibroblast-related genes and proteins were also significantly down-regulated, indicating decrease in risk of scar formation. Furthermore, wound healing is accelerated while achieving a highly organized extracellular matrix and enhanced angiogenesis in vivo. ConclusionConsequently, the HSA-bFGF NPs are suggested not only as a delivery vehicle but also as a protein stabilizer for effective wound healing and tissue regeneration. 

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