Effect of substratum on growth, cell morphology and lactoferrin synthesis and secretion in bovine mammary cell culture

The role of extracellular matrix in morphology, growth and lactoferrin synthesis and secretion in bovine mammary cells from a developing gland is poorly defined. In this study, bovine mammary cells from a hormone-primed developing gland were isolated and cultured on plastic, collagen, embedded withi...

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Bibliographic Details
Published in:Tissue & cell 1998-04, Vol.30 (2), p.226-235
Main Authors: Talhouk, R.S., Neiswander, R.L., Schanbacher, F.L.
Format: Article
Language:English
Subjects:
Animals
Biocompatible Materials
Blood Proteins - pharmacology
Bovine mammary cells
Cattle
cell culture
Cell Culture Techniques - methods
Cell Division - drug effects
Cell Division - physiology
Cell Size
Cells, Cultured
Collagen
Cryopreservation
Drug Combinations
EHS-matrix
Electrophoresis, Polyacrylamide Gel
Extracellular Matrix - chemistry
Extracellular Matrix - ultrastructure
Female
lactoferrin
Lactoferrin - analysis
Lactoferrin - biosynthesis
Lactoferrin - metabolism
Laminin
Mammary Glands, Animal - cytology
Mammary Glands, Animal - metabolism
Mesoderm - chemistry
Mesoderm - cytology
Mesoderm - ultrastructure
Microscopy, Electron
Plastics
Proteoglycans
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Summary:The role of extracellular matrix in morphology, growth and lactoferrin synthesis and secretion in bovine mammary cells from a developing gland is poorly defined. In this study, bovine mammary cells from a hormone-primed developing gland were isolated and cultured on plastic, collagen, embedded within collagen, or on EHS-matrix, with the hormones prolactin, insulin, and cortisol in the presence or absence of fetal calf serum. Mammary cells on plastic or collagen spread and formed confluent cell sheets, while those embedded within collagen or on EHS-matrix maintained their acinar-like structure. Histological and ultrastructural analysis of cells showed that cells on plastic and collagen grew in multilayers, while those embedded within collagen or on EHS-matrix lacked any lumen structure. The ultrastructure of cells on different substrata more resembled an undifferentiated phenotype. Mammary cells secreted lactoferrin in increasing concentrations throughout the culture period. The total amount secreted in culture was regulated by extracellular matrix and fetal calf serum. Cells embedded within collagen in serum-free cultures secreted the lowest amounts of lactoferrin (up to 619 ng/ml; day 14), while those on collagen and supplemented with fetal calf serum secreted up to 4920 ng/ml at day 14. Fetal calf serum induced higher lactoferrin secretion within each substratum on which the cells were cultured. No intracellular accumulation of lactoferrin was noted in cells on plastic or collagen or those embedded within collagen, whereas those on EHS-matrix accumulated more than 500 ng/ml of lactoferrin intracellularly/intracinarly. Furthermore, when cultured on a similar substratum, cells from a developing gland secreted higher lactoferrin than cells from a lactating gland.
ISSN:0040-8166
1532-3072
DOI:10.1016/S0040-8166(98)80071-2