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Query: EC:2.7.11.13 (
protein kinase C
)
49,245
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Staurosporine (stsp) induces assembly of cornified envelopes in mouse keratinocyte cultures. To clarify whether this effect is the consequence of a coordinated differentiation program similar to that observed in epidermis, we assessed the expression of multiple differentiation-specific markers in stsp-treated keratinocytes. In medium containing 0.05 mM Ca2+, in which the basal cell phenotype is normally maintained, stsp induced dose-dependent increases in keratin 1, epidermal and keratinocyte transglutaminases,
SPR-1
, loricrin, and profilaggrin mRNA. Based on nuclear run-on analysis, stsp-mediated marker expression was found to be due at least in part to increased transcription. Since
protein kinase C
(
PKC
) activation is required for keratinocyte differentiation, we tested whether stsp influenced this signaling pathway. Stsp induced the translocation of multiple
PKC
isoforms from the cytosol to membrane and/or cytoskeletal fractions, inducing isozyme downregulation within 24 h. Moreover, AP-1 DNA binding activity was elevated in stsp-treated keratinocytes, consistent with the notion that this agent influences keratinocyte-specific gene expression via the
PKC
pathway. Stsp-mediated marker expression was inhibited by the
PKC
inhibitor GF 109203X. In cells pre-treated with bryostatin 1 to selectively down-modulate specific
PKC
isoforms, stsp-induced loricrin, filaggrin, and
SPR-1
expression was suppressed when
PKC
alpha, epsilon, and/or delta were downregulated, suggesting that these isozymes may be necessary for marker expression in response to this agent. Thus, in addition to its effects on cornified envelope assembly, stsp induces a coordinate program of differentiation-specific keratinocyte gene expression that is mediated at least in part by the
PKC
signaling pathway.
...
PMID:Staurosporine induces a sequential program of mouse keratinocyte terminal differentiation through activation of PKC isozymes. 864 81
Epidermal keratinocyte differentiation is a tightly regulated, stepwise process that requires
protein kinase C
(
PKC
) activation. Studies using cultured mouse keratinocytes induced to differentiate with Ca2+ have indirectly implicated the alpha isoform of
PKC
in upregulation of "late" (granular cell) epidermal differentiation markers. Activation of this isoform is also implicated in the suppression of "early" differentiation markers keratin (K) 1 and 10 that characterizes the neoplastic phenotype produced by the v-Ha-ras oncogene. We used antisense oligonucleotides (AS) to directly address the role of
PKC
alpha in regulating expression of these markers in normal and v-Ha-ras-transduced primary keratinocytes and a keratinocyte cell line (SP-1) containing an activating mutation of the c-Ha-ras gene. Transfection of
PKC
alpha AS reduced the
PKC
alpha protein level in a dose-dependent manner, with a maximum effect at doses of 100 nM or higher. Immunoblot analysis with antibodies against
PKC
alpha,
PKC
delta,
PKC
epsilon, and
PKC
eta confirmed that
PKC
alpha AS selectively reduced the level of
PKC
alpha but not the other isoforms. In vitro kinase assays also revealed suppression of Ca(2+)-dependent
PKC
activity, which is the
PKC
alpha activity in this cell type, after transfection of
PKC
alpha AS. When
PKC
alpha AS-treated normal keratinocytes were stimulated to terminally differentiate with Ca2+, induction of the late differentiation markers loricrin, filaggrin, and
SPR-1
, as well as transglutaminase K mRNA, was suppressed when compared with their induction in scrambled AS-treated controls. In neoplastic v-Ha-ras-transduced keratinocytes and SP-1 cells, transfection of
PKC
alpha AS, but not the scrambled AS control, selectively downregulated
PKC
alpha and restored differentiation-specific expression of K1. These findings directly confirm that
PKC
alpha is an important component of the signaling pathway regulating terminal differentiation of normal keratinocytes and that activation of
PKC
alpha contributes to the altered differentiation program of neoplastic murine keratinocytes.
...
PMID:Definition by specific antisense oligonucleotides of a role for protein kinase C alpha in expression of differentiation markers in normal and neoplastic mouse epidermal keratinocytes. 902 12
Normal human epidermal keratinocytes (NHEK) grown in serum-free medium on a plastic substrate spontaneously differentiate at high cell densities in vitro. Because
protein kinase C
(
PKC
) regulates murine keratinocyte differentiation triggered by a variety of stimuli, we examined the role of this signaling pathway in density-dependent activation of NHEK differentiation. Relative to subconfluent cultures, confluent NHEK expressed markedly higher levels of multiple differentiation markers assayed by immunoblotting, including keratin 1, loricrin, filaggrin, involucrin, TGK, and
SPR-1
. Expression of several of these markers continued to increase for several days after cells reached confluency. The total level of several
PKC
isoforms was not substantially altered in NHEK harvested at different cell densities, based on immunoblotting; however, subcellular fractionation revealed that
PKCalpha
underwent a redistribution to the particulate fraction in confluent and postconfluent NHEK cultures, suggesting that this isozyme was activated under these conditions and may be involved in triggering the terminal differentiation program. Supporting this concept, inhibition of
PKC
function using bryostatin 1 or GF 109203X blocked the induction of keratinocyte differentiation markers at high cell densities. These data suggest that endogenous activation of
PKC
is responsible for cell density-mediated stimulation of NHEK differentiation, establishing a critical role for this pathway in regulating human as well as murine keratinocyte differentiation.
...
PMID:Differentiation of cultured human epidermal keratinocytes at high cell densities is mediated by endogenous activation of the protein kinase C signaling pathway. 980 35
The aim of this study was to determine whether gamma-rays affect differentiation in mouse epidermal cells. After a pre-treatment with the
PKC
inhibitor staurosporin (STS) or 1-(5-isoquinolinesulfomyl)-2-methylpiperazine (H7), gamma-rays were irradiated with or without an elevation of 0.12 mM Ca2+ and expressions of differentiation markers and each
PKC
isozyme were examined in normal primary and v-rasHa transformed mouse keratinocytes. Gamma-rays induced the expressions of differentiation markers of keratin 1 and 10 (K1 and 10), filaggrin, loricrin and
SPR-1
in normal keratinocytes when the Ca2+ concentration was increased, and these phenomena were augmented in H7 pretreated cells. Similar results were obtained in STS pretreated cells; in this case, gamma-rays enhanced the expressions of the differentiation markers even without an elevated Ca2+ concentration. In v-rasHa transformed cells, gamma-rays induced the expression of differentiation markers not only at 0.05 mM Ca2+, but in 0.12 mM Ca(2+)-shifted cells, and in H7 pretreated cells, these phenomena were augmented. The translocation of
PKC
alpha to the particulate fraction was seen in H7 pretreated normal keratinocytes. Radiation also induced
PKC
alpha expression in STS pretreated cells, independent of Ca(2+)-shift, as well as altered expressions of
PKC
delta and -eta, while expressions of
PKC
alpha, -delta, -epsilon, and -eta were enhanced in v-rasHa transformed cells. In conclusion, gamma-rays augmented the expressions of both spinous and granular differentiation markers in normal and v-rasHa transformed keratinocytes and this effect was augmented when
PKC
inhibitors were used, which may be mediated by the cellular redistribution of
PKC
isozymes.
...
PMID:Radiation augments a sequential program of differentiation in PKC inhibitor- pretreated mouse epidermal cells. 1064 89
