The aim of the present study was to determine the role of milk endogenous proteolytic enzymes in sheep milk cheesemaking ability during lactation. Plasmin, plasminogen, and plasminogen activator in ewe bulk milk were not significantly affected by stage of lactation, probably because of the good health of the ewe udders throughout lactation as indicated by somatic cell count, which never exceeded 600,000 cells/mL. Elastase content increased significantly during lactation, whereas cathepsin showed the greatest content in mid lactation. Early and mid lactation milk showed impaired renneting parameter compared with late lactation milk, probably because of greater á-casein degradation, brought about by cathepsin, and lesser fat and casein (CN) milk contents. Changes in macrophage and neutrophil levels in ewe bulk milk during lactation were also investigated. Macrophages minimally contributed to leukocyte cell count in milk and had the greatest levels at the beginning of lactation. An opposite trend was recorded for polymorphonuclear neutrophilic leucocytes (PMNL) that increased throughout lactation, showing the greatest value in late lactation. Urea-PAGE of sodium caseinate (NaCN) incubated with isolated and concentrated PMNL at 37°C after 48 h at pH 8 showed massive casein degradation that could be ascribed to proteases yielded by PMNL. The increase of PMNL percentage and elastase content in milk, despite the relatively low SCC, suggests that PMNL and elastase underwent a physiological increase associated to the remodeling of mammary gland in late lactation.

Role of endogenous enzymes in proteolysis of sheep milk

ALBENZIO, MARZIA;SANTILLO, ANTONELLA;CAROPRESE, MARIANGELA;MARINO, ROSARIA MARIA TERESA;SEVI, AGOSTINO,CARMELO
2009-01-01

Abstract

The aim of the present study was to determine the role of milk endogenous proteolytic enzymes in sheep milk cheesemaking ability during lactation. Plasmin, plasminogen, and plasminogen activator in ewe bulk milk were not significantly affected by stage of lactation, probably because of the good health of the ewe udders throughout lactation as indicated by somatic cell count, which never exceeded 600,000 cells/mL. Elastase content increased significantly during lactation, whereas cathepsin showed the greatest content in mid lactation. Early and mid lactation milk showed impaired renneting parameter compared with late lactation milk, probably because of greater á-casein degradation, brought about by cathepsin, and lesser fat and casein (CN) milk contents. Changes in macrophage and neutrophil levels in ewe bulk milk during lactation were also investigated. Macrophages minimally contributed to leukocyte cell count in milk and had the greatest levels at the beginning of lactation. An opposite trend was recorded for polymorphonuclear neutrophilic leucocytes (PMNL) that increased throughout lactation, showing the greatest value in late lactation. Urea-PAGE of sodium caseinate (NaCN) incubated with isolated and concentrated PMNL at 37°C after 48 h at pH 8 showed massive casein degradation that could be ascribed to proteases yielded by PMNL. The increase of PMNL percentage and elastase content in milk, despite the relatively low SCC, suggests that PMNL and elastase underwent a physiological increase associated to the remodeling of mammary gland in late lactation.
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11369/15798
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