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There is limited information regarding the value of constitutive components of the ACTH stimulation test (ACTHST) and low-dose dexamethasone suppression test (LDDST) including serum baseline cortisol (BC), difference between post-ACTH stimulation cortisol (PC) and BC (ΔACTHC), cortisol concentration 4h after dexamethasone administration (4HC), difference between 4HC and BC (Δ4C), and the difference between cortisol concentration 8h after dexamethasone administration and 4HC (Δ8C). Therefore, the objective of this study was to determine if these components can predict hyperadrenocorticism, pituitary-dependent hyperadrenocorticism (PDH), or functional adrenocortical tumor (FAT) in dogs. Cortisol concentrations were normalized, as fold change (FC), to the PC reference interval upper limit. A total of 1267 dogs were included, with hyperadrenocorticism diagnosed in 537 (PDH, n=356; FAT, n=28; undetermined, n=153) and excluded in 730. The area under the receiver operating curves for BC, ΔACTHC, 4HC, Δ4C, and Δ8C to predict hyperadrenocorticism were 0.76 (95% confidence interval (CI), 0.73-0.79), 0.91 (95% CI, 0.89-0.93), 0.83 (95% CI, 0.80-0.87), 0.55 (95% CI, 0.50-0.60), and 0.67 (95% CI, 0.62-0.72), respectively. A diagnostic limit of ≥0.78 FC for ΔACTHC had excellent sensitivity (1.00; 95% CI, 0.74-1.00), but poor specificity (0.67; 95% CI, 0.64-0.71), to predict FAT in dogs with a positive ACTHST. A diagnostic limit of ≥-0.26 FC for Δ4C had excellent sensitivity (1.00; 95% CI, 0.79-1.00), but poor specificity (0.21; 95% CI, 0.18-0.26), to predict FAT in dogs with a positive LDDST. In hyperadrenocorticoid dogs that have positive ACTHST or LDDST results, ΔACTHC or Δ4C, respectively, could be used to exclude FAT.

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Abbreviations are used to improve the speed of note keeping and to simplify patient notes. However studies have shown that they can reduce clarity, increase mistakes and cause confusion in management plans. Our review highlights the misuse of abbreviations in surgical note keeping.

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A 1-year old female spayed German Shepherd dog was evaluated for acute onset of dyspnea. Pyogranulomatous inflammation and green globoid structures were present on aspirates of the affected lung. Impression smears and histopathology confirmed pyogranulomatous pneumonia, with large amounts of lipid corresponding to the green structures noted cytologically, and identified poorly staining bacterial rods within lipid vacuoles. Special stains confirmed the presence of acid-fast bacterial rods, and polymerase chain reaction and DNA sequencing identified the organism as Mycobacterium fortuitum. M. fortuitum pneumonia is well described in humans and has previously been reported in 4 dogs and 1 cat. Lipid was a prominent cytologic and histologic feature, as is often described in humans and in the single feline case report. Additionally, this case highlights the variable cytologic appearance of lipid, as well as Mycobacterium spp, which are classically nonstaining with Wright-Giemsa.

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Platelet-activating factor (PAF; 1-O-Alkyl-2-acetyl-sn-glycero-3-phosphorylcholine) is a ubiquitous phospholipid that is implicated in the mediation of a wide variety of reproductive processes. To better understand the role of PAF in bovine reproduction, it was designed experiments to: (a) determine whether bull spermatozoa express receptors for PAF and (b) study the effect of exogenous PAF on in vitro sperm physiology (i.e., capacitation, acrosome reaction, motility, and fertilizing ability). Bull sperm express PAF receptor as determined by two approaches: RT-PCR and immunofluorescence. However, exposure of spermatozoa to different concentrations of exogenous PAF (10-11-10-6 M) did not affect capacitation, acrosome reaction or motility. Consistent with these findings, coculture of gametes in medium containing increasing concentrations of PAF (1 x 10-8-8 x 10-6 M) did not improve in vitro fertilization outcome as measured by percentage of inseminated oocytes reaching 2-cell stage 48 h after fertilization. In contrast, PAF at 8 x 10-6 M concentration significantly inhibited IVF. In conclusion, although bull sperm have PAF receptors, exposure of bull spermatozoa to exogenous PAF failed to enhance the sperm function parameters measured in this study. Additional studies are warranted to elucidate the biological role of PAF on bull spermatozoa.

El factor activador de plaquetas (PAF; del inglés Platelete Activating Factor; 1-O-Alkyl-2-acetyl-sn-glycero-3-phosphorylcholine) es un fosfolípido ampliamente distribuido que participa como mensajero mediador en diferentes procesos reproductivos. Para comprender mejor la participación del PAF en la fisiología espermática bovina se diseñaron experimentos para: (a) determinar si los espermatozoides de toro expresan receptores para PAF y (b) estudiar el efecto del PAF sobre el comportamiento de los espermatozoides bovinos in vitro (capacitación, reacción acrosomal y capacidad fertilizante). De acuerdo a los resultados obtenidos por RT-PCR e inmunofluorescencia, los espermatozoides de toro expresan receptores para PAF. Sin embargo, la exposición de los espermatozoides a concentraciones crecientes de PAF exógeno (10-11-10-6 M) no afectó la capacitación, reacción de acrosoma ni la motilidad. En concordancia con estos hallazgos, el cocultivo de gametas (ovocitos y espermatozoides) en medio al cual se le había adicionado PAF (1 x 10-8-8 x 10-6 M) no mejoró la tasa de fertilización medida como el porcentaje de ovocitos inseminados que alcanzaron el estadio de 2 células 48 hs después de la inseminación. Por el contrario, PAF a una concentración de 8 x 10-6 M inhibió significativamente la tasa de fertilización. En conclusión, a pesar de que los espermatozoides bovinos poseen receptores para PAF, el agregado de PAF al medio de cultivo no mejora las funciones espermáticas examinadas en el presente trabajo. Otros estudios serán necesarios para dilucidar la participación del PAF en la fisiología espermática del toro.

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An 11-year-old, Black and Tan Coonhound dog was presented with a history of lameness of the right hind leg for 2 months, osteolysis in the right distal femur, a pulmonary mass, and a presumptive diagnosis of osteosarcoma. By cytologic examination, neoplastic melanocytes were noted from fine needle aspirates of the femoral and pulmonary masses. Postmortem examination revealed a disseminated melanoma involving the right femoral bone marrow, lung, multiple lymph nodes, and adrenal gland, with diffuse infiltration of the leptomeninges of the brain and spinal cord. This case report describes a unique presentation of canine melanoma, which in some ways resembles leptomeningeal melanomatosis, a rare human melanoma variant.

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Globoid cell leukodystrophy (GLD), or Krabbe's disease, is a progressive autosomal recessive disorder of the central nervous system in man and in various other species. GLD has been shown to result from various mutations in the gene encoding galactocerebrosidase (GALC), a lysosomal enzyme. We investigated the molecular basis of GLD in a related group of Irish setters. Sequencing of the GALC cDNA from an affected individual revealed an insertion mutation of 78 base pairs (bp) consisting of 16 bp of insertion site duplication and 62 bp of sequence derived from the U4 small nuclear RNA. We implemented a PCR-based test which is useful for identifying carriers of the mutation.

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Three proximal elements, PER1, PER2, and PER3, have been implicated in the regulation of peripherin gene expression. PER1 contains the TATA motif and was identified as the principal mediator of neuronal specificity. Here, we demonstrate by transfection of constructs mutated in PER1 that the in vitro protein binding activity of PER1 is irrelevant to its function. However, mutations or substitutions in the TATA box decreased promoter activity by up to 80%. We have investigated this unusual preference for a particular TATA sequence in PC12 cells. In these cells, nerve growth factor induces neuronal differentiation, increasing peripherin gene expression 3-4-fold, while dexamethasone elicits chromaffin differentiation and a 3-fold decrease in peripherin mRNA. Experiments with stably transfected PC12 cells revealed that the specific TATA box of the peripherin gene was crucial for nerve growth factor response. However, it did not affect dexamethasone down-regulation. Therefore, nerve growth factor acts through an element essential for neuronal peripherin gene expression. The results predict that proteins interacting in the vicinity of the TATA box, by inference factors associated with the preinitiation complex, are important for peripherin gene regulation and provide new insights into the mechanisms underlying neuronal differentiation.

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This study was undertaken to evaluate keratin 19 (K19) as a biochemical marker for skin stem cells in order to address some long standing questions concerning these cells in the field of cutaneous biology. We first used the well-established mouse model enabling us to identify skin stem cells as [3H]thymidine-label-retaining cells. A site directed antibody was raised against a synthetic peptide of K19. It reacted specifically with a 40 kDa protein (K19) on immunoblotting. It labelled the bulge area of the outer root sheath on mouse skin by immunohistochemistry. Double-labelling revealed that K19-positive-cells were also [3H]thymidine-label-retaining cells, suggesting that K19 is a marker for skin stem cells of hair follicles. K19-expression was then used to investigate the variation in mouse and human skin stem cells as a function of body site, donor age and culture time. K19 was expressed in the hair follicle and absent from the interfollicular epidermis at hairy sites (except for some K18 coexpressing Merkel cells). In contrast, at glabrous sites, K19-positive-cells were in deep epidermal rete ridges. K19 expressing cells also contained high levels of alpha 3 beta 1 integrin. The proportion of K19-positive-cells was greater in newborn than older foreskins. This correlated with keratinocyte culture lifespan variation with donor age. Moreover, it could explain clinical observations that children heal faster than adults. In conclusion, K19 expression in skin provides an additional tool to allow further characterization of skin stem cells under normal and pathological conditions in situ and in vitro.

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Keratin 19 is an intermediate filament protein produced by cells of simple epithelia and basal cells of stratified epithelia of different organs. These cell types are associated with important human cancers. We have used the keratin 19 promoter to target the expression of the polyomavirus (Py) large T-antigen, an immortalizing oncogene known to bind to the tumor suppressor retinoblastoma gene product, to epithelial cells. Individuals of the transgenic mouse line K19PyLT-6 developed one or two nodules in one of their lungs. By histology, the nodules were papillary tumors that consisted of nonciliated epithelial cells of the terminal bronchioles. In addition, infiltrates emanating from the nodules were consistent with the development of pulmonary adenocarcinomas. In situ hybridization techniques demonstrated large T-antigen expression in the tumors. Primary cultures were established from a lung tumor dissected from a K19PyLT-6 transgenic mouse. These large T-antigen-expressing cell lines produced the keratin proteins reminiscent of the epithelial origin of the lung tumor. However, further molecular studies indicated that these cell lines did not express Clara cells or pneumocytes markers. s.c. injection of the cell lines into nontransgenic syngeneic mice produced tumors in 2 weeks that resembled malignant pulmonary adenocarcinomas. These animals, which display tumor progression in situ, and the cell lines derived thereof provide a useful system for the study of lung tumorigenesis.

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The objective of this study was to identify genes involved in invasion and metastasis using a rat rhabdomyosarcoma model (SMF-A and RMS-B cell lines). The SMF-A cell line was established from a metastatic nodule of an induced rhabdomyosarcoma in syngeneic F344 rats. Two cell lines with defined metastatic potentials, SMF-Ai and SMF-Da, were cloned from the SMF-A line. The cell line SMF-Ai is tumorigenic, highly invasive and highly metastatic. On the other hand, the revertant line SMF-Da is less tumorigenic, non-invasive and non-metastatic. We have isolated from a SMF-Ai cDNA library eight cDNA clones which are differentially expressed by the metastatic SMF-Ai and the non-metastatic SMF-Da cell line using Northern blot analysis. Five of these clones, smf-4, smf-6, smf-41, smf-42 and smf-44, are overexpressed in the SMF-Da cell line and have homology with beta-2-microglobulin, lactate dehydrogenase, ribosomal protein L38, ribosomal protein S4 and acidic ribosomal phosphoprotein P1, respectively. The three other clones, smf-7, smf-40 and smf-61, are overexpressed in SMF-Ai. Clones smf-40 and smf-61 show significant homology with the human TB3-1 gene and the human fus gene respectively. The clone smf-7 has no significant homology with known sequences. We also analyzed the expression of these clones in other rat rhabdomyosarcoma cell lines (RMS-B and their clones) and in tumors obtained by injection of these cell lines into rats or nude mice. Smf-61 and smf-7 were the only clones with a differential expression pattern associated with the invasive or metastatic potential of all cell lines examined. A preliminary study of the expression of smf-7 and smf-61 in other cancer cell lines also showed mRNA expression in two human rhabdomyosarcomas and a human epidermoid carcinoma suggesting the existence of genes homologous to smf-7 and smf-61 clones in human cancers. Our findings suggest an association between the expression of smf-7 and smf-61 and invasive or metastatic potential of rhabdomyosarcoma cells.

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Cancer malignancy is directly related to invasiveness and metastasis and inversely related to the degree of tumor differentiation. The relation between the stage of cell differentiation and the types of invasion leading to metastasis is not entirely clear. Intramuscularly transplanted rat rhabdomyosarcomas are good models to study cell differentiation, invasion, and metastasis. Rat rhabdomyosarcoma cell lines (SMF-Ai, SMF-Da, and RMS-B and its clones) with defined invasive and metastatic potentials have been established. The stage of myogenic differentiation was evaluated morphologically and by immunohistochemistry. Invasiveness was evaluated according to the infiltration of muscle fibers and basal lamina. The SMF-Ai line is highly invasive and metastatic. It is composed of premyoblasts that were involved in intercellular, translaminar, and transcellular invasion of muscle fibers. The SMF-Da line is noninvasive and nonmetastatic. It is composed of myoblasts. The RMS-B line and its clones were at different stages of differentiation and they differed in their invasiveness and metastatic potentials. In highly invasive and metastatic clones (RMS-Bg and RMS-Bc), premyoblasts were involved in translaminar invasion. Clones composed of myoblasts, rhabdomyoblasts, and myotubes only showing intercellular invasion did not present hematogenous metastasis. Our results demonstrate a correlation between premyoblastic stage of differentiation and translaminar invasion. The presence of translaminar invasion is directly related to hematogenous metastatic ability of rat rhabdomyosarcomas.

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Peripherin (Prph) is a type-III intermediate filament (IF) protein principally synthesized in peripheral nervous system neurons. We have previously shown that three regulatory elements, PER1, PER2 and PER3, in the first 98 bp of the Prph gene promoter, were sufficient to direct cell-type specific expression of a reporter gene [Desmarais et al., EMBO J. 11 (1992) 2971-2980]. Of these elements, PER1 was found to be important for cell-type specificity, but required the presence of other elements for transcriptional activity. Here, we show that PER3 is a stronger activator than PER2 and that it can stimulate cell-type-specific transcription when combined with PER1. We have characterized the G + C-rich PER3 element for its ability to bind trans-acting factors. Gel retardation and methylation interference (MI) assays show that PER3 binds transcription factor Sp1. In addition, an anti-Sp1 antibody recognizes the PER3 DNA-binding protein. A 3-bp mutation abrogating the capacity of PER3 to bind Sp1 in vitro completely abolished expression of the reporter gene construct containing only PER3 and PER1, while in a construct containing the first 256 bp of the Prph promoter, it led to an 80% decrease with respect to the control wild-type construct. Finally, by co-transfection of a Sp1-expressing plasmid, we show that Sp1 can stimulate transcription from a reporter gene containing the PER3 sequence. Together, these results indicate that interactions between Sp1 and the proteins binding PER1 are involved in the control of the Prph gene.

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Keratins are intermediate filament proteins expressed in epithelial cells. They are divided into two groups, type I and type II, that must associate to form filaments. The genes encoding these proteins are clustered in two type-specific loci. In stratified epithelia, differentiation of the basal cells is accompanied by a switch in the expression of keratin genes. However, how this switch is controlled is not yet understood. We report here the cloning and mapping of a 55-kb region surrounding the keratin 19 (K19) gene in the mouse genome. This gene encodes a type I subunit expressed in simple and complex epithelia, notably in nonkeratinizing stratified epithelia of internal organs. In these tissues, it is expressed in basal cells and not in suprabasal cells, where the main type I subunit is keratin 13. Using probes corresponding to highly conserved sequences in intermediate filament proteins, we mapped two other genes downstream from the K19 gene. Restriction mapping and sequencing data indicate that they encode the mouse K15 and K13. The three genes are separated by about 5-6 kb, and they are in the same transcriptional orientation. Because the three genes are expressed together in stratified epithelia and because their order of expression during differentiation is the same as their order on the chromosome, we suggest that there is a relationship between their genomic organization and the control of their expression.

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BACKGROUND: To understand the relation between differentiation and metastasis and to identify genes involved in invasive or metastatic potential of cancer cells it is necessary to develop experimental models allowing in vivo and in vitro studies. EXPERIMENTAL DESIGN: Cell lines with definite metastatic potentials have been established and cloned from a metastatic nodule of an induced rhabdomyosarcoma in syngeneic F344 rats. The parental cell line, SMF-A, is tumorigenic, highly invasive and metastatic. Another cell line, SMF-D, derived from the parental cell line, is also tumorigenic but not metastatic. Biopathologic differences between the metastatic and nonmetastatic SMF cell lines have been studied. RESULTS: The loss of metastatic potential of the SMF-D cell line was found to be stable and was accompanied by changes in in vitro invasiveness and in myogenic differentiation state. An immunohistochemical study of the expression of cytoskeletal proteins (vimentin, desmin, alpha-actins) indicates that desmin is undetectable in metastatic SMF-A cells, whereas it is strongly expressed in the nonmetastatic SMF-D cells. However, the two cell lines express vimentin but not sarcomeric alpha-actin. These observations suggest that SMF-A cells are of undifferentiated premyoblastic type and SMF-D cells, of myoblastic type. Our study suggests an association between the appearance of myogenic differentiation and the loss of metastatic potential in the SMF-D cell line. CONCLUSIONS: This rat myoblastic sarcoma model may prove useful for in vivo and in vitro studies of the metastatic potential of tumor cells. This model also lends itself to studies of the relation between invasive or metastatic potential and differentiation since the steps of myogenic differentiation are well known.

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Peripherin is a neurone-specific intermediate filament protein expressed mostly in the peripheral nervous system. To localize sequences that are important for the regulation of peripherin gene transcription, we have functionally dissected its promoter. Transfection into different cell lines and deletion mapping of peripherin-lacZ hybrid constructs indicated that the first 98 bp preceding the transcription start site of the gene were sufficient to confer cell-type specific expression. DNase I footprinting experiments revealed three protected sequences in this region, that were named PER1, PER2 and PER3. The PER2 and PER3 elements, localized between -98 to -46, interact with proteins that seem widely distributed. Deletion of these elements severely decreased the level of reporter gene activity. The PER1 element, which overlaps the TATA box, interacts with a DNA-binding protein prevailing in peripherin expressing cell lines. However, the core promoter, which contains the PER1 element, was inefficient in driving gene expression. Experiments designed to test the contribution of each element showed that PER2 and PER3 were important in determining the level of expression, while PER1 was important for cell-type specificity. In fact the polyoma virus enhancer linked to the peripherin gene core promoter was found to limit reporter gene activity to peripherin expressing cell lines. Together, these experiments indicate that co-operative interactions between different regions of the promoter are necessary for efficient and cell-type specific transcription of the peripherin gene in a subset of neuronal cells.

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In order to identify genes that may play a role in the onset of the differentiation program elicited by retinoic acid, we analyzed, in P19 embryonal carcinoma cells, the expression of genes that are part of the early response of mouse fibroblasts to growth factor stimulation. In this paper, we show that a sequence-specific transcriptional activator, Krox-24, is rapidly induced, under conditions that promote differentiation of P19 cells. Expression of three other serum- and retinoic acid-stimulated genes (clones AC36, C1, and G39) was also studied. Induction of these genes occurs during the first 48 h of exposure of cells to retinoic acid, a period that precedes cell type determination. Our results suggest that different mechanisms regulate the expression of the Krox-24 gene in differentiating P19 cells. A labile repressor seems to be responsible for control of Krox-24 expression in P19 embryonal carcinoma cells. Inactivation of this repressor following retinoic acid treatment resulted in several peaks of activation of the Krox-24 gene, mediated by different mechanisms, some of which did not require de novo protein synthesis. In contrast, activation of AC36 required de novo protein synthesis, and that of C1 and G39 did not. The four genes are differentially expressed in several mouse tissues and during mouse embryonic development.

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Keratin 19 (K19) is synthesized mainly in embryonic and adult simple epithelia, but has also been found in stratified epithelia as well. K19 is the smallest known keratin and is remarkable in that, contrary to all other keratins, it does not have a designated partner for the formation of filaments, implying that regulation of its expression is different from other keratin-encoding genes. As a first step in elucidating the mechanisms by which the K19 gene is regulated in relatively undifferentiated embryonic and in terminally differentiated adult tissues, a series of overlapping clones containing the complete mouse K19 gene was isolated from a mouse genomic library and characterized. The nucleotide (nt) sequence extends over 5119 nt and includes six exons. A region of 303 nt upstream from the transcription start point (tsp) was also sequenced. Comparison with the human and bovine K19 genes revealed the existence of homologies in both the coding and noncoding regions. The putative promoter region of the mouse K19 gene is highly homologous to the corresponding sequences of the human and bovine K19 genes. It contains an ATA box, a CAAT box and two potential Sp1-binding sites. Significant homologies were also found between the sequences of the introns of the mouse, human and bovine genes: this was particularly evident in introns 2, 3, 4 and 5. Intron 1, which showed the greatest degree of divergence, was found to contain many repetitive elements. Finally, it is shown that the mouse K19 gene cosegregates with the type-I keratin-encoding gene locus (Krt-1) on chromosome 11.

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Expression of vimentin, desmin, alpha-sarcomeric and alpha-smooth muscle actins in embryonic tissues of rat and mice was examined using an immunohistochemical approach. The results showed a similarity in the expression of desmin and alpha-actin isoforms (alpha-sr and alpha-sm) in skeletal muscle cells during murine feto-embryonic development. In the two species, coexpression of alpha-sr and alpha-sm actins has been observed in cardiomyoblasts, myotomal myoblasts and myotubes. The intensity of alpha-sm actin expression decreased during the terminal steps of myogenesis and disappeared completely in mature cardiomyocytes and myofibres. Desmin was expressed in all prefusion myoblasts (type 1 and 2 myoblasts), myotubes, and in myofibres. The appearance of desmin in myoblasts of somites preceded by a few hours the expression of the alpha-actins (alpha-sr and alpha-sm). Our study on vimentin expression, limited to rat embryos, revealed that somite premyoblasts expressed only vimentin, type 1 myoblasts expressed vimentin and desmin, and type 2 myoblasts (rhabdomyoblasts) expressed desmin and alpha-actins (alpha-sr and alpha-sm). Our study demonstrates the resemblance between feto-embryonic myogenesis and myogenic neoplastic differentiation: desmin appears before the alpha-actins in embryonic myoblasts, and can be considered as a marker of an initial step in myogenic differentiation. alpha-sm actin, considered as a striated muscle cell feto-embryonic actin, is expressed transiently in skeletal myoblasts and cardiomyoblasts during development and reappears during neoplastic transformation of skeletal muscle.

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F9 embryonal carcinoma cells (F9EC) can be induced to differentiate in vitro into epithelial cells expressing keratin 8 (K8) and keratin 18 (K18). cDNAs corresponding to K8 and K18 mRNAs were cloned and used to study the change in the abundance of these mRNAs during differentiation of F9 cells into parietal endoderm-like cells by treatment with retinoic acid (RA) or with RA and dibutyryl cAMP (Bt2cAMP). Using an RNase protection assay, it was determined that K8 mRNA was induced slightly before K18 mRNA and that it accumulated to a greater extent than K18 mRNA. Furthermore, differentiation in presence of Bt2cAMP plus RA resulted in an earlier induction of the two mRNAs and a higher level of expression of K8 mRNA. These results indicate that K8 and K18 mRNAs are regulated differently in F9 cells.

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Induction of genes coding for the K1 and K10 keratins during mouse development was studied by measuring the accumulation of their respective mRNAs in day 10 to 17 embryos using an RNase protection assay. Although these two keratins are coexpressed in the suprabasal layers of the epidermis, it was found that while K1 mRNA was detectable as soon as day 10, K10 mRNA was not detectable before day 12. The expression of these genes at this stage of development was not expected since they are specifically associated with keratinization, a process that does not begin before day 17 of gestation. Histological examination of the epidermis of day 10 to 17 embryos suggests that both genes are induced in cells committed to epidermal differentiation, after stratification has started but before the onset of keratinization. It was also found that the two mRNAs increased in abundance steadily and significantly until day 16 and that, in spite of the expectation that filaments should contain equivalent amounts of each subunit, K1 mRNA remained more abundant than K10 mRNA at all times including in adult epidermis. These observations indicate that the two genes are regulated independently during development.

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