101. The Importance of pH in Regulating the Function of the Fasciola hepatica Cathepsin L1 Cysteine Protease
- Author
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Jacqueline M. Matthews, John P. Dalton, Weibo Xu, Colin M. Stack, Sheila Donnelly, Mark W. Robinson, and Jonathan Lowther
- Subjects
lcsh:Arctic medicine. Tropical medicine ,lcsh:RC955-962 ,medicine.medical_treatment ,Proteolysis ,Biochemistry/Biocatalysis ,Cathepsin L ,Hemoglobins ,Biochemistry/Protein Chemistry ,Cathepsin L1 ,Zymogen ,Tropical Medicine ,medicine ,Animals ,Microbiology/Parasitology ,Biology ,Infectious Diseases/Helminth Infections ,chemistry.chemical_classification ,Cathepsin ,Protease ,biology ,medicine.diagnostic_test ,lcsh:Public aspects of medicine ,Public Health, Environmental and Occupational Health ,lcsh:RA1-1270 ,Fasciola hepatica ,Hydrogen-Ion Concentration ,Cysteine protease ,Molecular biology ,Cathepsins ,Amino acid ,Infectious Diseases ,Biochemistry ,chemistry ,Biophysics/Protein Chemistry and Proteomics ,biology.protein ,Research Article - Abstract
The helminth parasite Fasciola hepatica secretes cathepsin L cysteine proteases to invade its host, migrate through tissues and digest haemoglobin, its main source of amino acids. Here we investigated the importance of pH in regulating the activity and functions of the major cathepsin L protease FheCL1. The slightly acidic pH of the parasite gut facilitates the auto-catalytic activation of FheCL1 from its inactive proFheCL1 zymogen; this process was ∼40-fold faster at pH 4.5 than at pH 7.0. Active mature FheCL1 is very stable at acidic and neutral conditions (the enzyme retained ∼45% activity when incubated at 37°C and pH 4.5 for 10 days) and displayed a broad pH range for activity peptide substrates and the protein ovalbumin, peaking between pH 5.5 and pH 7.0. This pH profile likely reflects the need for FheCL1 to function both in the parasite gut and in the host tissues. FheCL1, however, could not cleave its natural substrate Hb in the pH range pH 5.5 and pH 7.0; digestion occurred only at pH≤4.5, which coincided with pH-induced dissociation of the Hb tetramer. Our studies indicate that the acidic pH of the parasite relaxes the Hb structure, making it susceptible to proteolysis by FheCL1. This process is enhanced by glutathione (GSH), the main reducing agent contained in red blood cells. Using mass spectrometry, we show that FheCL1 can degrade Hb to small peptides, predominantly of 4–14 residues, but cannot release free amino acids. Therefore, we suggest that Hb degradation is not completed in the gut lumen but that the resulting peptides are absorbed by the gut epithelial cells for further processing by intracellular di- and amino-peptidases to free amino acids that are distributed through the parasite tissue for protein anabolism., Author Summary Fasciola hepatica is a helminth parasite that causes liver fluke disease (fasciolosis) in domestic animals (sheep and cattle) and humans worldwide. Cathepsin L cysteine proteases (FheCL) are secreted by the parasite to invade its host, migrate through tissues and to degrade host haemoglobin (Hb), a major source of nutrient to the parasite. FheCL1 is a very stable protease and active over a broad pH range (3.0–9.0), making it very suitable for functions both inside and outside the parasite. The slightly acidic pH of the parasite gut not only regulates the autocatalytic activation of the proFheCL1 zymogen to an active FheCL1 protease but also induces relaxation of the Hb structure, making it more susceptible to proteolysis. The action of FheCL1, which is enhanced by glutathione (GSH), the major reducing agent found in red blood cells, degrades Hb to small peptides (predominantly 4–14 residues) that can be absorbed by the gut epithelial cells. Further processing within these cells by exopeptidases provides the necessary amino acids required for protein anabolism by the parasite.
- Published
- 2009