Cathelicidin Attenuates Hyperoxia-Induced Lung Injury by Inhibiting Ferroptosis in Newborn Rats

Medicine & Life Sciences

• Ferroptosis 92%
• CAP18 lipopolysaccharide-binding protein 84%
• Hyperoxia 73%
• Lung Injury 61%
• Saline Solution 40%
• Air 23%
• Interleukin-1 14%
• Cathelicidins 12%
• Phospholipid Hydroperoxide Glutathione Peroxidase 11%
• Oxidative Stress 10%
• Lung 7%
• Malondialdehyde 7%
• Glutathione 6%
• Sprague Dawley Rats 6%
• Iron 6%
• Newborn Infant 5%
• Antioxidants 5%
• Oxygen 5%
• Body Weight 5%
• Western Blotting 4%
• Peptides 4%
• Therapeutics 2%

Agriculture & Biology

• cathelicidins 92%
• hyperoxia 79%
• neonates 49%
• lungs 46%
• rats 30%
• air 17%
• interleukin-1 15%
• oxidative stress 10%
• phospholipid-hydroperoxide glutathione peroxidase 10%
• iron 9%
• distress 7%
• antimicrobial peptides 7%
• pups 6%
• malondialdehyde 5%
• Western blotting 5%
• glutathione 5%
• adverse effects 5%
• antioxidant activity 4%
• oxygen 4%
• body weight 4%

Chemical Compounds

• Cathelicidin 100%
• Oxidative Stress 12%
• Glutathione 11%
• Polypeptide Antibiotic Agent 7%
• Peroxidase 5%
• Antioxidant Agent 4%
• Weight 3%
• Dioxygen 3%