Insect tracheal taenidia contain a keratin-like protein*

ABSTRACT. The presence in insect tracheal taenidia of a protein having an immunochemical determinant common to vertebrate keratins is suggested. Taenidia react positively with a specific anti keratin serum both at the fluorescent and electron microscope level. In tracheal preparations, immunoblotting shows specificity for three polypeptides having molecular weights ranging from 62 to 43 kd, two of them corresponding to prekeratins. In the region of taenidia reacting with the antisera, 7–8 nm thick filaments are present. The occurrence of a keratin-like protein in insects, and the role played in the tracheal intima are discussed.     

Keratinization of rat vaginal epithelium. II. Immunofluorescence study on keratin filaments in cycling and estrogen primed rats

Rat vaginal epithelial layers from animals in different phases of the estrous cycle showed positive immunofluorescence when treated with either monoclonal antibody to intermediate filaments or immunoglobulin G fraction of antiserum raised against epidermal keratin filaments. During estrus, the intensity of fluorescence observed was maximum in the keratinized cellular layers. In estradiol-primed immature and ovariectomized rats the maximum fluorescence intensity was observed in the layers immediately lining the lumen. However, basal layers in ovariectomized rats also showed some fluorescence. Data presented in this communication indicate that the abundance of keratin filaments in vaginal epithelial cells can be modulated by altering the level of estradiol in the system.     

大鼠附睾上皮细胞的识别

本文利用免疫荧光技术,用角蛋白和波形蛋白抗体作为组化探针,对不同年龄大鼠的整体和离体培养的附睾上皮细胞进行鉴定,区分出结缔组织成分。并证明用0.05%胰蛋白酶和0.1%胶原酶相继消化附睾管可得到较丰富的上皮细胞,体外培养能维持10d 以上,在培养过程中显示其形态特征。因此本文所用的分离、培养方法所得到的附睾上皮细胞可作为深入研究其功能的一种模型。     

Functional analysis of mouse keratin 8 in polyoma middle T-induced mammary gland tumours

Keratin 8 and 18 are commonly used as tumorigenic markers for various types of carcinomas. They are known to be involved in cell migration, cell invasiveness, plasminogen activity and drug and radiation resistance. To ascertain a potential function for simple epithelium keratins in mammary adenocarcinoma in vivo, keratin-8-deficient mice (mK8) were mated with transgenic mice carrying the middle T oncogene driven by the MMTV promoter. The resulting mK8 knockout and control progeny carrying the middle T transgene developed mammary gland tumours with the same incidence. However, the onset of palpable mammary gland tumours occurred earlier in mK8 mutant than in control mice. This effect was prominent in males where the onset in control animals is delayed overall, because of the lower hormonal inducibility of the MMTV promoter. Metastatic foci were observed in the lungs of all females and of a few males, idependently of the genotype. Histological analysis revealed no morphological differences of the tumorigenic cells in primary tumours nor in metastatic foci. As expected, keratin 8 was absent in the mK8 tumours. Keratin 7 (mK7), keratin 18 (mK18) and keratin 19 (mK19) protein were observed in both primary and metastatic foci. These results constitute the first in vivo analysis of the role of simple epithelium keratins in mammary carcinogenesis. It demonstrates that the latency, but not the incidence nor the morphological features, of PyV middle T-induced mammary gland tumours is affected by keratin 8 deficiency     

Association of spectrin with desmin intermediate filaments

The association of erythrocyte spectrin with desmin filaments was investigated using two in vitro assays. The ability of spectrin to promote the interaction of desmin filaments with membranes was investigated by electron microscopy of desmin filament-erythrocyte inside-out vesicle preparations. Desmin filaments bound to erythrocyte inside-out vesicles in a spectrin-dependent manner, demonstrating that spectrin is capable of mediating the association of desmin filaments with plasma membranes. A quantitative sedimentation assay was used to demonstrate the direct association of spectrin with desmin filaments in vitro. When increasing concentrations of spectrin were incubated with desmin filaments, spectrin cosedimented with desmin filaments in a concentration-dependent manner. At near saturation the spectrin:desmin molar ratio in the sedimented complex was 1:230. Our results suggest that, in addition to its well characterized associations with actin, spectrin functions to mediate the association of intermediate filaments with plasma membranes. It might be that nonerythrocyte spectrins share erythrocyte spectrin's ability to bind to intermediate filaments and function in nonerythroid cells to promote the interaction of intermediate filaments with actin filaments and/or the plasma membrane.     

Cytoskeletal markers and specific protein production in cells cultured from human first and third trimester placentae

Summary In primary, short-term cultures derived from first and third trimester placentae, 60 to 90 and 70 to 95%, respectively, of the total cell population positively stain for cytokeratin intermediate filaments, typical of epithelial, i.e. trophoblastic cells. The rest of the cells express only vimentin intermediate filaments and thus are of mesenchymal origin. Only the cytokeratin-positive cells express human chorionic gonadotropin (hCG), whereas both the epithelial and the mesenchymal cells stain positively for pregnancy-specific beta-1-glycoprtein (SP₁). Cytokeratin-negative and vimentin-positive cell overgrowth is observed in cultures derived from first and early third trimester placentae. The cells constituting the monolayer thus formed are of fetal origin as evidenced by the expression of Y-body in over 80% of them. The cultured cells synthesize and secrete hCG and SP₁. The activity of these trophoblast-specific functions is inversely proportional to the gestational age of the placenta. Production of specific proteins and expression of intermediate filaments are proposed as criteria for defining the nature and origin of placental cells in primary, short-term cultures.     

Isoelectric focusing of human head hair keratins from various racial groups

Isoelectric focusing of extracted keratin not S-carboxymethylated followed by silver staining was used in this study with the attempt to identify head hair keratins from different racial groups: Guatuso and Caribbean (Costa Rica, America), Balanta (Guinea-Bissau, Africa) and Sardinian (Italy, Europe). Morphological analysis of hair and quantitation of solubilized total proteins were also performed. Keratins extracted from hair gave similar IEF patterns for all samples in the ranges of pH 4.5–5.0 and 5.4–7.4, differing only in the intensity and width of the bands. IEF patterns for Guatuso samples differ from all the others in the presence of some additional bands in the range of pH 4.0–4.5. Different electrophoretic patterns are not associated with detectable differences in the morphology of the fibers. It seems to us that electrophoretic techniques may be useful in the identification of hair from different racial groups.     

Expression of the Intermediate Filament Keratin Gene,K15,in the Basal Cell Layers of Epithelia and the Hair Follicle

The intermediate filament keratin, K15, is present in variable abundance in stratified epithelia. In this study we have isolated and characterized the sheepK15gene, focusing on its expression in the follicles of sheep and mice. We show thatK15is expressed throughout the hair cycle in the basal layer of the outer root sheath that envelops the follicle. Strikingly, however, in large medullated wool follicles, a small group of basal outer root sheath cells located in the region thought to contain hair follicle stem cells areK15-negative. In the follicle bulbK15is expressed in cells situated next to the dermal papilla but not in the inner bulb cells. Elsewhere,K15is expressed at a low, variable level in the basal layer of the epidermis and sebaceous gland, often in a punctate pattern. In the esophagus of the sheepK15expression is restricted to the basal layer, in contrast to human esophagus where it is expressed throughout the epithelium. Transgenic mouse lines established with a 15-kb sheepK15gene construct exhibited faithful expression and showed no phenotypic consequences ofK15overexpression. An investigation of transgene expression showed thatK15is continuously expressed in outer root sheath cells during the hair cycle. Given its expression in the mitotically active basal cell layers of diverse epithelia and the follicle,K15expression appears to signal an early stage in the pathway of keratinocyte differentiation that precedes the decision of a cell to become epidermal or hair-like.     

Keratinolytic activity of Bacillus subtilis AMR using human hair

Aims:  To determine the ability of a novel Bacillus subtilis AMR isolated from poultry waste to hydrolyse human hair producing peptidases including keratinases and hair keratin peptides.
Methods and Results:  The Bacillus subtilis AMR was identified using biochemical tests and by analysis of 16S rDNA sequence. The isolate was grown in medium containing human hair as the sole source of carbon and nitrogen. The supplementation of hair medium (HM) with 0·01% yeast extract increased the keratinolytic activity 4·2-fold. B. subtilis AMR presented high keratinase production on the 8th day of fermentation in hair medium (HM) supplemented with 0·01% yeast extract (HMY) at pH 8·0. Keratinase yield was not correlated with increase in biomass. Zymography showed keratin-degrading peptidases migrating at c. 54, 80 and 100 kDa and gelatin-degrading bands at c. 80, 70 63, 54 32 and 15 kDa. Keratinases were optimally active at 50°C and pH 9·0 and was fully inhibited by the serine proteinase inhibitor (PMSF). Scanning electron microscopy showed complete degradation of the hair cuticle after exposure to B. subtilis AMR grown in HMY. MALDI-TOF analysis of culture supernatant containing peptides produced during enzymatic hydrolysis of hair by B. subtilis AMR revealed fragments in a range of 800–2600 Da.
Conclusions:  This study showed that B. subtilis AMR was able to hydrolyse human hair producing serine peptidases with keratinase and gelatinase activity as well as hair keratin peptides.
Significance and Impact of the Study:  This is the first report describing the production and partial characterization of keratinases by a B. subtilis strain grown in a medium containing human hair . These data suggest that peptides obtained from enzymatic hair hydrolysis may be useful for future applications on pharmaceutical and cosmetic formulations.     

Hard α-keratin IF: A structural model lacking a head-to-tail molecular overlap but having hybrid features characteristic of both epidermal keratin and vimentin IF

In intermediate filaments (IF) both epidermal keratin and vimentin molecules have been shown to have an eight residue head to-tail overlap between the rod domains of similarly directed molecules. In the case of the epidermal keratins this region has also been shown to have particular structural/functional significance since it represents a hot-spot for mutations in the four keratinopathies characterized to date. While there is good evidence that this head-to-tail overlap is present in IF containing Type III, IV, and V chains, as well as in the epidermal keratin IF (Ib/IIb), there are no data currently available for the hard α-keratin IF (Ia/IIa). Using a variety of data derived from X-ray diffraction and crosslinking studies, as well as theoretical modeling, it is now possible to demonstrate that the overlap region is not a feature of hard α-keratin IF. Indeed, it is shown that there is a nine residue gap between consecutive parallel molecules in the IF. An explanation for this observation is presented in terms of compensating disulfide bonds that occur both within the IF, and between the IF and the matrix in which the IF are embedded. © 1995 Wiley-Liss, Inc.     

Early Egyptian mummy hairs: Tensile strength tests,optical and scanning electron microscope observation. A paleobiological research

Early Egyptian mummy hairs have been studied by the optical microscope to establish cross-section measurements and by scanning electron microscope in order to analyse, from a morphological view-point, the variations in hair keratin fibre structure with passage of time. Fibre tensile strength tests have also been made. Tensile strength and breakage surface analysis may be related to the keratin structure.