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Query: UNIPROT:P42574 (caspase-3)
 45,978 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Caspases are a family of cysteine proteases related to interleukin-1 converting enzyme (ICE) and represent the effector arm of the cell death pathway. The zymogen form of all caspases is composed of a prodomain plus large and small catalytic subunits. Herein we report the characterization of a novel caspase, MICE (for mini-ICE), also designated caspase-14, that possesses an unusually short prodomain and is highly expressed in embryonic tissues but absent from all adult tissues examined. In contrast to the other short prodomain caspases (caspase-3, caspase-6, and caspase-7), MICE preferentially associates with large prodomain caspases, including caspase-1, caspase-2, caspase-4, caspase-8, and caspase-10. Also unlike the other short prodomain caspases, MICE was not processed by multiple death stimuli including activation of members of the tumor necrosis factor receptor family and expression of proapoptotic members of the bcl-2 family. Surprisingly, however, overexpression of MICE itself induced apoptosis in MCF7 human breast cancer cells, which was attenuated by traditional caspase inhibitors.
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PMID:Caspase-14 is a novel developmentally regulated protease. 979 75

Caspases are cysteinyl aspartate-specific proteinases, many of which play a central role in apoptosis. Here, we report the identification of a new murine caspase homologue, viz. caspase-14. It is most related to human/murine caspase-2 and human caspase-9, possesses all the typical amino acid residues of the caspases involved in catalysis, including the QACRG box, and contains no or only a very short prodomain. Murine caspase-14 shows 83% similarity to human caspase-14. Human caspase-14 is assigned to chromosome 19p13.1. Northern blot analysis revealed that mRNA expression of caspase-14 is undetectable in all mouse adult tissues examined except for skin, while it is abundantly expressed in mouse embryos. In contrast to many other caspase family members, murine caspase-14 is not cleaved by granzyme B, caspase-1, caspase-2, caspase-3, caspase-6, caspase-7 or caspase-11, but is weakly processed into p18 and p11 subunits by murine caspase-8. No aspartase activity of murine caspase-14 could be generated by bacterial or yeast expression. Transient overexpression of murine caspase-14 in mammalian cells did not elicit cell death and did not interfere with caspase-8-induced apoptosis. In conclusion, caspase-14 is a member of the caspase family but no proteolytic or biological activities have been identified so far. The high constitutive expression levels in embryos and specific expression in adult skin suggest a role in ontogenesis and skin physiology.
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PMID:Identification of a new caspase homologue: caspase-14. 1020 98

The epidermis is a stratified squamous epithelium in which keratinocytes progressively undergo terminal differentiation towards the skin surface leading to programmed cell death. In this respect we studied the role of caspases. Here, we show that caspase-14 synthesis in the skin is restricted to differentiating keratinocytes and that caspase-14 processing is associated with terminal epidermal differentiation. The pro-apoptotic executioner caspases-3, -6, and -7 are not activated during epidermal differentiation. Caspase-14 does not participate in apoptotic pathways elicited by treatment of differentiated keratinocytes with various death-inducing stimuli, in contrast to caspase-3. In addition, we show that non-cornifying oral keratinocyte epithelium does not express caspase-14 and that the parakeratotic regions of psoriatic skin lesions contain very low levels of caspase-14 as compared to normal stratum corneum. These observations strongly suggest that caspase-14 is involved in the keratinocyte terminal differentiation program leading to normal skin cornification, while the executioner caspases are not implicated. Cell Death and Differentiation (2000) 7, 1218 - 1224
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PMID:Epidermal differentiation does not involve the pro-apoptotic executioner caspases, but is associated with caspase-14 induction and processing. 1117 59

Caspase-14 is the only member of the caspase family that shows a restricted tissue expression. It is mainly confined to epidermal keratinocytes and in contrast to other caspases, is not activated during apoptosis induced by ultraviolet irradiation or cytotoxic substances. As it is cleaved under conditions leading to terminal differentiation of keratinocytes we suggested that caspase-14 plays a part in the physiologic cell death of keratinocytes leading to skin barrier formation. Here we show that retinoic acid, at concentrations inhibiting terminal differentiation of keratinocytes, strongly suppressed caspase-14 mRNA and protein expression by keratinocytes in monolayer culture and in a three-dimensional in vitro model of differentiating human epidermis (skin equivalent). By contrast, the expression of the caspases 3 and 8, which are both activated during conventional apoptosis, was increased and unchanged, respectively, after retinoic acid treatment. In addition to inhibition of differentiation in skin equivalents, retinoic acid treatment led to keratinocyte apoptosis and activation of caspase-3, both of which were undetectable in differentiated control skin equivalents. As this occurred in the absence of detectable caspase-14, our data demonstrate that caspase-14 is dispensable for keratinocyte apoptosis. The fact that in contrast to caspase-3 and caspase-8, caspase-14, similarly to other keratinocyte differentiation-associated proteins, is downregulated by retinoids, strongly suggests that this caspase, but not caspase-3 and -8, plays a part in terminal keratinocyte differentiation and skin barrier formation.
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PMID:Caspase-14 expression by epidermal keratinocytes is regulated by retinoids in a differentiation-associated manner. 1244 5

A clinically relevant model of transient global brain ischemia involving cardiac arrest followed by resuscitation in dogs was utilized to study the expression and proteolytic processing of apoptosis-regulatory proteins. In the hippocampus, an increase in pro-apoptotic Bcl-2 family proteins Bcl-XS and Bak was detected, concomitant with proteolysis of Bcl-XL and Bcl-2, following ischemia-reperfusion injury. Also, biphasic cleavage of Bid was found in this region of the brain, with early generation of tBid-p11 within 10 min of cardiac arrest, followed by generation of tBid-p15 within 30-min reperfusion, consistent with activation of this pro-apoptotic protein. In addition, cardiac arrest and resuscitation induced early, reperfusion-dependent proteolytic processing of pro-caspase-6, -8, -10, and -14, which preceded caspase-3 activation. Immunohistochemical analysis using antibodies, which preferentially recognize processed caspase-3, -6, -8, and -10, provided evidence of time-dependent activation of these proteases in both neurons and glia in ischemia-sensitive regions of the brain. In conclusion, extremely rapid, cell-selective processing of apoptosis-regulatory proteins occurs in a clinically relevant model of ischemic brain injury caused by cardiac arrest and resuscitation. The early cleavage of Bid and rapid depletion of 32-kDa pro-caspase-14 from the canine hippocampus after induction of ischemia suggests the involvement of calpains in the processing of these proteins. Demonstration of in vitro cleavage of recombinant mouse caspase-14 by calpain I in the present study lends support to this hypothesis, further implicating cross-talk between different protease families in the pathophysiology of ischemic neural cell death.
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PMID:Early processing of Bid and caspase-6, -8, -10, -14 in the canine brain during cardiac arrest and resuscitation. 1538 Apr 78

The activation of caspases is a central step in apoptosis and may also be critical for terminal differentiation of epidermal keratinocytes (KC). In particular, caspase-3 has been implicated in the differentiation of embryonic KC as well as in programmed cell death of KC, and caspase-14 has been suggested to function in the formation or homeostasis of the stratum corneum (SC). To test the putative roles of these proteases, we determined their expression level and activation status during development of fetal mouse epidermis. The level of procaspase-3 did not change significantly during epidermal development, and enzyme activation was undetectable at any timepoint investigated. Despite the lack of active caspase-3, the newly formed stratum granulosum and the regressing periderm contained cells positive in the terminal deoxynucleotidyl transferase-mediated fluorescein-dUTP nick end labeling assay, indicating that nuclear DNA was degraded without activation of caspase-3, thereby arguing against a proteolytic function of caspase-3 in embryonic KC differentiation. By contrast, caspase-14 increased in abundance from embryonic day 14.5 (E14.5) onwards and consistently localized to the suprabasal layers of fetal epidermis. The caspase-14 pro-enzyme was processed into its catalytic subunits, a step required for enzyme activity, on day E17.5, coinciding with SC formation. Thus, processing of procaspase-14 is not confined to air-exposed mature skin but also occurs during epidermal development in utero. In summary, this study demonstrates that caspase-14, but not caspase-3 activation coincides temporally and spatially with embryonic KC differentiation, suggesting a role for caspase-14 in terminally differentiated KC.
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PMID:Caspase-14 but not caspase-3 is processed during the development of fetal mouse epidermis. 1631 11

Terminal differentiation of keratinocytes in the epidermis and in epidermal appendages results in specialized forms of cell death. Keratinocytes of the nail matrix differentiate into nail corneocytes, the building blocks of the nail plate. Here, we show that, in contrast to the abrupt breakdown of the nucleus during corneocyte formation of epidermal keratinocytes, chromatin undergoes progressive condensation over several nail matrix cell layers below the transition zone to the nail plate, where nuclear DNA disappears. Virtually all keratinocytes in the cell layer immediately beneath the nail plate contained terminal deoxynucleotidyl transferase-mediated fluorescein-dUTP nick end labeling-positive DNA fragments. Nail matrix keratinocytes lacked processed caspase-3, a marker of apoptosis, and did not express caspase-14, a protease up-regulated during terminal differentiation of epidermal keratinocytes. By contrast, DNase1L2, which is also up-regulated during the differentiation of epidermal keratinocytes and plays an essential role in differentiation-associated degradation of nuclear DNA in epidermal keratinocytes, was strongly expressed in the nail matrix-nail plate transition layer. Our results show that caspase-14 is not strictly, if at all, required for differentiation-associated keratinocyte cell death and implicates DNase1L2 in terminal differentiation of nail matrix keratinocytes.
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PMID:Terminal differentiation of nail matrix keratinocytes involves up-regulation of DNase1L2 but is independent of caspase-14 expression. 1749 Apr 14

Proteases of the caspase family play central roles in apoptosis and inflammation. Recently, we have described a new gene encoding caspase-15 that has been inactivated independently in different mammalian lineages. To determine the dynamics of gene duplication and loss in the entire caspase gene family, we performed a comprehensive evolutionary analysis of mammalian caspases. By comparative genomics and reverse transcriptase-polymerase chain reaction analyses, we identified 3 novel mammalian caspase genes, which we tentatively named caspases-16 through -18. Caspase-16, which is most similar in sequence to caspase-14, has been conserved in marsupials and placental mammals, including humans. Caspase-17, which is most similar to caspase-3, has been conserved among fish, frog, chicken, lizard, and the platypus but is absent from marsupials and placental mammals. Caspase-18, which is most similar to caspase-8, has been conserved among chicken, platypus, and opossum but is absent from placental mammals. These gene distribution patterns suggest that, in the evolutionary lineage leading to humans, caspase-17 was lost after the split of protherian and therian mammals and caspase-18 was lost after the split of marsupials and placental mammals. In the canine genome, the number of caspases has been reduced by the fusion of the neighboring genes caspases-1 and -4, resulting in a single coding region. Further lineage-specific gene inactivations were found for caspase-10 in murine rodents and caspase-12 in humans, rabbit, and cow. Lineage-specific gene duplications were found for caspases-1, -3, and -12 in opossum and caspase-4 in primates. Other caspases were generally conserved in all mammalian species investigated. Using the positions of introns as stable characters during recent vertebrate evolution, we define 3 phylogenetic clades of caspase genes: caspases-1/-2/-4/-5/-9/-12/-14/-15/-16 (clade I), caspases-3/-6/-7/-17 (clade II), and caspases-8/-10/-18/CFLAR (clade III). We conclude that gene inactivations have occurred in each of the 3 caspase clades and that gene loss has been as critical as gene duplication in the evolution of the human repertoire of caspases.
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PMID:Identification of novel mammalian caspases reveals an important role of gene loss in shaping the human caspase repertoire. 1828 Dec 71

Restricted expression of caspase-14 in differentiating keratinocytes suggests the involvement of caspase-14 in terminal differentiation. We purified active caspase-14 from human cornified cells with sequential chromatographic procedures. Specific activity increased 764-fold with a yield of 9.1%. Purified caspase-14 revealed the highest activity on WEHD-methylcoumaryl-amide (MCA), although YVAD-MCA, another caspase-1 substrate, was poorly hydrolyzed. The purified protein was a heterodimer with 17 and 11 kDa subunits. N-terminal and C-terminal analyses demonstrated that the large subunit consisted of Ser(6)-Asp(146) and N-terminal of small subunit was identified as Lys(153). We successfully developed an antiserum (anti-h14D146) directed against the Asp(146) cleavage site, which reacted only with active caspase-14 but not with procaspase-14. Furthermore we confirmed that anti-h14D146 did not show any reactivity to the active forms of other caspases. Immunohistochemical analysis demonstrated that anti-h14D146 staining was mostly restricted to the cornified layer and co-localized with some of the TUNEL positive-granular cells in the normal human epidermis. UV radiation study demonstrated that caspase-3 was activated and co-localized with TUNEL-positive cells in the middle layer of human epidermis. In contrast, we could not detect caspase-14 activation in response to UV. Our study revealed tightly regulated action of caspase-14, in which only the terminal differentiation of keratinocytes controls its activation process.
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PMID:Purification and characterization of active caspase-14 from human epidermis and development of the cleavage site-directed antibody. 1996 May 12

Keratinization is a kind of cell death called terminal differentiation and includes various patterns such as epidermal keratinization (EK), trichilemmal keratinization (TK), and shadow cell differentiation (SCD), whereas these have not been comparatively investigated from a standpoint of cell death. In the present study, surgically extirpated specimens of epidermal cyst, trichilemmal cyst, and pilomatricoma (10 cases in each) were subjected to immunohistochemistry for single-strand DNA (ssDNA), gamma-H2AX, cleaved caspase-3, cleaved lamin A, caspase-14, and CD138 to compare the modes of cell death and keratinization pattern. Transitional cells in pilomatricoma were immunoreactive, although not in whole part, for ssDNA and gamma-H2AX, and negative for cleaved caspase-3 and cleaved lamin A. Epidermal and trichilemmal cyst were negative for these 4 markers, except for ssDNA or cleaved lamin A in a small number of parakeratotic cells in a few cases. The keratinizing component showed caspase-14(+)/CD138(-) in epidermal cyst, caspase-14(-)/CD138(+) in trichilemmal cyst, and caspase-14(-)/CD138(-) in pilomatricoma. These results indicate that EK, TK, and SCD have a common property of apoptosis-like programmed cell death without caspase-3 activation or nuclear fragmentation. Meanwhile, they show different characteristics one another as follows: (A), DNA double-strand breaks occur in the transitional cells of SCD but not in EK/TK; and (B), EK, TK, and SCD can be distinguished by expression pattern of caspase-14 and CD138 in the keratinizing component.
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PMID:Comparative immunohistochemical analyses on the modes of cell death/keratinization in epidermal cyst, trichilemmal cyst, and pilomatricoma. 2104 91


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