Phosphorylation of β-Casein and α-Lactalbumin by Casein Kinase from Lactating Bovine Mammary Gland

Bingham, Elizabeth W.; Parris, Nicholas; Farrell, Harold M.

doi:10.3168/jds.s0022-0302(88)79561-2

Cited by 29 publications

(20 citation statements)

References 23 publications

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“…Previous work has shown that GCK activity present within Golgi fractions is exposed to the lumen and can be only assayed with exogenous substrate following detergent solubilization of the membranes [6,[9][10][11]. This resulted in the assumption that GCK is an integral Golgi membrane protein [25,26].…”

Section: Resultsmentioning

confidence: 99%

“…This resulted in the assumption that GCK is an integral Golgi membrane protein [25,26]. In our initial experiments, GCK activity was solubilized from lactating mammary tissue using 1 % Triton X-100 as previously described [6,[9][10][11]. Extensive dialysis to remove detergent led to massive precipitation of solubilized protein.…”

Section: Resultsmentioning

confidence: 99%

“…The phosphorylation of caseins is important to allow them to bind Ca# + and for the subsequent formation of casein micelles, which remain stable in milk [3]. The protein kinase responsible for this physiological casein phosphorylation is present within Golgi compartments [4][5][6][7][8], and is only accessible in in itro assays after disruption of the Golgi membranes [6,[9][10][11]. The use of caseins as substrates for protein kinases has resulted in the identification and detailed characterization of two protein kinases : casein kinase (CK) 1 and CK2 [12].…”

Section: Introductionmentioning

confidence: 99%

“…These are cytosolic enzymes and are, therefore, misnamed (since they would not encounter casein as a physiological substrate). The basic properties of the Golgi casein kinase (GCK) have been characterized in Golgi fractions and membrane extracts [6,[9][10][11], but this enzyme has not been convincingly purified or cloned. In addition, it is neither clear whether GCK activity encompasses single or multiple enzymes, nor is it known if a mammary-gland-specific GCK exists, or if instead GCK is a single, ubiquitously expressed enzyme.…”

Section: Introductionmentioning

confidence: 99%

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Purification of Golgi casein kinase from bovine milk

Duncan

Wilkinson

Burgoyne

2000

Biochemical Journal

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Caseins and many other secretory proteins are phosphorylated during their transport through the secretory pathway by a protein kinase present within Golgi compartments. Molecular analysis of the Golgi casein kinase (GCK) has not been possible since it has not been purified to homogeneity or been cloned. Previous attempts have been made to purify GCK activity from mammary gland Golgi fractions, but these have not resulted in extensive purification of the enzyme. In the present study, we have demonstrated that substantial amounts of GCK activity, assayed using a specific peptide substrate, can be detected as a soluble form in bovine milk, and we have used milk as a source for purification. A purification protocol was established that allowed > 80000-fold purification to a specific activity of GCK (approx. 700nmoles/min per mg of protein) far higher than previously achieved. These findings cast doubts on previous claims for purification of GCK activity. In addition, ion-exchange chromotography resolved two closely eluting peaks of activity, suggesting the existence of two related, but distinct, GCK activities.

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Section: Resultsmentioning

confidence: 99%

Section: Resultsmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

See 2 more Smart Citations

Purification of Golgi casein kinase from bovine milk

Duncan

Wilkinson

Burgoyne

2000

Biochemical Journal

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“…Recent work of Bingham et al [13] demonstrated that all sites of phosphorylation previously described by sequence analysis can be phosphorylated by a Ca +-and CM-independent casein kinase preparation. The preparation of the membranes was performed in 1 mM EDTA, suggesting that the Ca 2+-and CM-dependent enzyme may not participate in phosphorylation of the familiar sites.…”

Section: Discussionmentioning

confidence: 99%

Two physiological substrate‐specific casein kinases are present in the bovine mammary gland

Brooks

1989

FEBS Letters

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Two species of casein kinase from lactating bovine mammary gland have been identified; a Ca 2+-and CM-independent casein kinase and a Ca 2+-and CM-dependent casein kinase. The Ca "+-and CM-indeI~ndent casein kinase phosphorylates previously dephosphorylated a,~-, ,6-or x-casein while the Ca ,+-and CM-dependent casein kinase prefers previously dephosphorylated p-or x-casein as substrates. Two activities are indicated by their substrate specificity, sensitivity to Ca 2+ and CM, pH maxima, and differential solubilization by anionic detergents. The presence of a regulated casein kinase in the lactating mammary gland suggests that casein phosphorylation may be a regulator of miceile formation or secretion.

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Posttranslational modifications of bovine osteopontin: Identification of twenty‐eight phosphorylation and three O‐glycosylation sites

Højrup²,

1995

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Osteopontin (OPN) is a multiphosphorylated glycoprotein found in bone and other normal and malignant tissues, as well as in the physiological fluids urine and milk. The present study demonstrates that bovine milk osteopontin is phosphorylated at 27 serine residues and 1 threonine residue. Phosphoamino acids were identified by a combination of amino acid analysis, sequence analysis of S-ethylcysteine-derivatized phosphopeptides, and mass spectrometric analysis. Twenty-five phosphoserines and one phosphothreonine were located in Ser/Thr-XGlu/Ser(P)/Asp motifs, and two phosphoserines were found in the sequence Ser-X-X-Glu/Ser(P). These sequence motifs are identical with the recognition sequences of mammary gland casein kinase and casein kinase 11, respectively. Examination of the phosphorylation pattern revealed that the phosphorylations were clustered in groups of approximately three spanned by unphosphorylated regions of 11-32 amino acids. This pattern is probably of importance in the multiple functions of OPN involving interaction with Ca2+ and inorganic calcium salts. Furthermore, three 0-glycosylated threonines (Thr 115, Thr 124, and Thr 129) have been identified in a threonineand proline-rich region of the protein. Three putative N-glycosylation sites (Asn 63, Asn 85, and Asn 193) are present in bovine osteopontin, but sequence and mass spectrometric analysis showed that none of these asparagines were glycosylated in bovine mammary gland osteopontin. Alignment analysis showed that the majority of the phosphorylation sites in bovine osteopontin as well as all three 0-glycosylation sites were conserved in other mammalian sequences. This conservation of serines, even in otherwise less well-conserved regions of the protein, indicates that the phosphorylation of osteopontin at specific sites is essential for the function of the protein.Keywords: mineralization; 0-glycosylation; osteopontin; phosphorylation; phosphoserine; phosphothreonine; S-ethylcysteine The phosphorylation of serine, threonine, and tyrosine residues in intracellular proteins is an essential and well-documented mechanism in the regulation of cell physiology. Less attention has been directed to the localization and effects of phosphorylation in extracellular proteins. As the number of examples of phosphorylated proteins has intensified, it has become apparent that a majority of these contain multiple phosphorylations (Roach, 1991). In extracellular proteins, these multiple phosphorylations are often of structural importance in the forma-.~

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Phosphorylation of β-Casein and α-Lactalbumin by Casein Kinase from Lactating Bovine Mammary Gland

Cited by 29 publications

References 23 publications

Purification of Golgi casein kinase from bovine milk

Purification of Golgi casein kinase from bovine milk

Two physiological substrate‐specific casein kinases are present in the bovine mammary gland

Posttranslational modifications of bovine osteopontin: Identification of twenty‐eight phosphorylation and three O‐glycosylation sites

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