Saige Yin scite author profile

Gout that caused by hyperuricemia affects human health seriously and more efficient drugs are urgently required clinically. In this study, a novel peptide named RDP1 (AAAAGAKAR, 785.91 Da) was identified from the extract of shelled fruits of Oryza sativa. Our results demonstrated that RDP1 (the minimum effective concentration is 10 μg/kg) could significantly reduce the serum uric acid and creatinine and alleviate hyperuricemic nephropathy in rats by intragastric administration. RDP1 inhibited xanthine oxidase, which also was verified at the animal level. Results from molecular docking indicated that RDP1 can inhibit uric acid formation by occupying the binding site of xanthine oxidase to xanthine. Besides, RDP1 showed no toxicity on rats and was stable in several temperatures, demonstrating its advantages for transportation. This research was the first discovery of antihyperuricemic peptide from the shelled fruits of O. Sativa and provided a new candidate for the development of hypouricemic drugs.

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A short peptide potentially promotes the healing of skin wound

Song

Zhang

et al. 2019

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Skin wound, a common form of skin damage in daily life, remains a serious challenge in clinical treatment. Bioactive peptides with high efficiency have been considered as potential therapeutic candidates for wound healing. In this report, a novel short linear peptide, with mature peptide sequence of ‘GLLSGINAEWPC’ and no obvious similarity with other known bioactive peptides, was identified by genomic method from the skin of odorous frog, Odorrana andersonii. Our results suggested that OA-GL12 (OA: abbreviation of species (O. andersonii), GL: two initial amino acids, 12: peptide length) obviously accelerated the scratch-healing of keratinocytes and human fibroblasts in a time- and concentration-dependent manner. Meanwhile, OA-GL12 showed significant effect in promoting the wound healing on the full-thickness skin wound model. Inflammatory assay results demonstrated that OA-GL12 induced the secretion of tumor necrosis factor (TNF) and transforming growth factor β1 (TGF-β1) on murine macrophage cell line (RAW264.7), which might explain the powerful accelerating capacity of wound healing. Moreover, results also indicated that epidermal growth factor receptor (EGFR) was involved in the mechanisms underlying the scratch-healing promoting activity of OA-GL12. In addition, OA-GL12 showed obvious free radical scavenging activity. Results supported that OA-GL12 did not exert risk in acute toxicity, hemolytic activity, and direct antibacterial activity. The remarkable effect of OA-GL12 on promoting wound healing verified in this research made it potential to be a novel template for the development of wound healing-promoting agents.

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RDP3, A Novel Antigout Peptide Derived from Water Extract of Rice

Liu

Wang

Zeng

et al. 2020

J. Agric. Food Chem.

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Gout and hyperuricemia can seriously affect the quality of life; at present, however, existing medicines are unable to meet all clinical needs. In the current study, a novel peptide (i.e., rice-derived-peptide-3 (RDP3), AAAAMAGPK-NH2, 785.97 Da) in water extract obtained from shelled Oryza sativa fruits was identified. Testing revealed that RDP3 (minimum effective concentration 100 μg/kg) did not show both hemolytic and acute toxicity, and reduced uric acid levels in the serum of hyperuricemic mice by inhibiting xanthine oxidase activity and decreasing urate transporter 1 expression. RDP3 also alleviated renal injury in hyperuricemic mice by decreasing NLRP3 inflammasome expression. Furthermore, RDP3 alleviated formalin-induced paw pain and reduced monosodium urate crystal-induced paw swelling and inflammatory factors in mice. Thus, this newly identified peptide reduced uric acid levels and renal damage in hyperuricemic mice and showed anti-inflammatory and analgesic activities, indicating the potential of RDP3 as an antigout medicine candidate.

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A cyclic heptapeptide-based hydrogel boosts the healing of chronic skin wounds in diabetic mice and patients

Sun

et al. 2022

NPG Asia Mater

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The combined use of peptides, nanomaterials, and hydrogels is a promising strategy for chronic skin wound healing, which remains a huge clinical challenge. Here, we optimized the RL-QN15 peptide, which was shown to be a pro-healing drug candidate in our previous research, to obtain the cyclic heptapeptide (CyRL-QN15) with considerable therapeutic potency against skin wounds. Furthermore, a Zn2+-crosslinked sodium alginate (ZA) hydrogel containing hollow polydopamine (HPDA) nanoparticles loaded with CyRL-QN15 (HPDAlCyRL-QN15/ZA hydrogel) was prepared and characterized, which significantly enhanced the pro-healing potency of CyRL-QN15. At the cellular level, this nontoxic hydrogel accelerated the proliferation, migration, tube formation, and scratch healing of skin cells, regulated the secretion of cytokines from macrophages, directly scavenged free radicals, and decreased reactive oxygen species. Moreover, the HPDAlCyRL-QN15/ZA hydrogel significantly accelerated the healing of full-thickness skin wounds in type 2 diabetic mice by promoting the transition of macrophages to the M2 phenotype to reduce inflammation and cause re-epithelialization, formation of granulation tissue, deposition of collagen, and angiogenesis. Of note, the hydrogel also facilitated wound healing of diabetic patient skin cultured ex vivo. Overall, the HPDAlCyRL-QN15/ZA hydrogel presents a novel therapeutic strategy for clinical chronic skin wound (diabetic ulcer) healing.

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Saige Yin

Discovery of a novel short peptide with efficacy in accelerating the healing of skin wounds

New Rice-Derived Short Peptide Potently Alleviated Hyperuricemia Induced by Potassium Oxonate in Rats

A short peptide potentially promotes the healing of skin wound

RDP3, A Novel Antigout Peptide Derived from Water Extract of Rice

A cyclic heptapeptide-based hydrogel boosts the healing of chronic skin wounds in diabetic mice and patients

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