Filaggrin, an intermediate filament-associated protein: structural and functional implications from the sequence of a cDNA from rat.

Filaggrin is an intermediate filament-associated protein that is involved in aggregation of keratin filaments in fully cornified cells of the mammalian epidermis, and is an important marker for epidermal differentiation. In this report, the sequence of a rat cDNA clone coding for a portion of the polymeric precursor, profilaggrin, is presented. The cDNA is 2,314 bp long with 1,875 bp of coding region ending with an A-T-rich 3' noncoding region. Genomic analysis indicates that the profilaggrin gene consists of 20 +/- 2 repeats of 1,218 bp of sequence coding for 406 amino acids, making the mRNA at least 25-27 kb in length. Each repeat consists of a filaggrin domain and a linker sequence with an estimated size of 380 and 26 amino acids, respectively. High levels of profilaggrin mRNA are found only in keratinizing epithelia. Comparison of the rat filaggrin sequence with that of mouse and human filaggrin and with the sequence of phosphorylated peptides from mouse profilaggrin indicates that the proteins share extensive amino acid sequence similarities, especially in the two phosphorylated regions. Proteolytic processing sites are also quite similar in rat and mouse. The three species show blocks of sequence that are similar in length and composition which alternate with sequences that are variable in length. This analysis suggests that the evolution of the present-day filaggrins has been constrained by maintenance of phosphorylation sites and overall amino acid composition. The cDNAs for the profilaggrins are similar in structure, reflecting genes that have simple repeating structures and lack introns within their coding regions. Mouse and rat profilaggrin terminate with a nonpolar sequence atypical of the rest of the coding region, and have similar 3' noncoding regions. To explain these observations, a novel evolutionary model is proposed.     

Organization, structure, and polymorphisms of the human profilaggrin gene

Profilaggrin is a major protein component of the keratohyalin granules of mammalian epidermis. It is initially expressed as a large polyprotein precursor and is subsequently proteolytically processed into individual functional filaggrin molecules. We have isolated genomic DNA and cDNA clones encoding the 5'- and 3'-ends of the human gene and mRNA. The data reveal the presence of likely "CAT" and "TATA" sequences, an intron in the 5'-untranslated region, and several potential regulatory sequences. While all repeats are of the same length (972 bp, 324 amino acids), sequences display considerable variation (10-15%) between repeats on the same clone and between different clones. Most variations are attributable to single-base changes, but many also involve changes in charge. Thus, human filaggrin consists of a heterogeneous population of molecules of different sizes, charges, and sequences. However, amino acid sequences encoding the amino and carboxyl termini are more conserved, as are the 5' and 3' DNA sequences flanking the coding portions of the gene. The presence of unique restriction enzyme sites in these conserved flanking sequences has enabled calculations on the size of the full-length gene and the numbers of repeats in it: depending on the source of genomic DNA, the gene contains 10, 11, or 12 filaggrin repeats that segregate in kindred families by normal Mendelian genetic mechanisms. This means that the human profilaggrin gene system is also polymorphic with respect to size due to simple allelic differences between different individuals. The amino- and carboxyl-terminal sequences of profilaggrin contain partial or truncated repeats with unusual un-filaggrin-like sequences on the termini.(ABSTRACT TRUNCATED AT 250 WORDS)     

Multiple copies of phosphorylated filaggrin in epidermal profilaggrin demonstrated by analysis of tryptic peptides

The precursor of mouse (c57/B16) epidermal filaggrin (profilaggrin) is a very large (ca. 500 000 daltons), highly phosphorylated protein containing multiple copies of filaggrin (26 000 daltons). The conversion of profilaggrin to filaggrin late in epidermal cell differentiation involves dephosphorylation and proteolysis to yield the unphosphorylated filaggrin, which polymerizes with keratin filaments into macrofibrils. In order to gain insight in the nature of these processes, we compared tryptic digests of profilaggrin with those of filaggrin by reverse-phase liquid chromatography. Approximately 80% of the profilaggrin mass consists of multiple copies of filaggrin. Twenty peptides purified in good yield from both profilaggrin and filaggrin accounted for most of the filaggrin sequence. A detailed analysis of the yield of several peptides provided an estimate of the size and frequency of the repeat unit within profilaggrin. These data indicate that the repeating substructure of profilaggrin contains about 265 amino acids and that about 50 residues are removed per filaggrin domain as the precursor is processed to filaggrin. Assuming a molecular weight of 500 000 (as estimated from sodium dodecyl sulfate-polyacrylamide gel electrophoresis), this indicates there are 16 repeats. Analysis of phosphopeptides isolated from profilaggrin showed that 66% of the phosphate was located on peptides that are unphosphorylated in filaggrin. Analysis of peptide recoveries confirmed the repeat size and showed that every copy of filaggrin was phosphorylated in profilaggrin.     

The human loricrin gene.

Loricrin is the major protein component of the cornified cell envelope of terminally differentiated mammalian epidermal (stratum corneum) cells. Using a specific human cDNA clone, we have isolated and characterized the human loricrin gene. We show that it has a very simple structure of a single intron of 1188 base pairs (bp) in the 5'-untranslated region; there are no introns in coding sequences. By use of rodent-human somatic cell hybrids, followed by in situ hybridization with a biotin-labeled genomic DNA clone, the single-copy gene maps to chromosome location 1q21. Polymerase chain reaction analyses of genomic DNAs from different individuals show that human loricrin consists of two allelic size variants, due to sequence variations in its second glycine loop domain, and these variants segregate in the human population by normal Mendelian mechanisms. Furthermore, there are multiple sequence variants within these two size class alleles due to various deletions of 12 bp (4 amino acids) in the major loop of this glycine loop domain. By use of a specific loricrin antibody, we show by immunogold electron microscopy that loricrin initially appears in the granular layer of human epidermis and forms composite keratohyalin granules with profilaggrin, but localizes to the cell periphery (cell envelope) of fully differentiated stratum corneum cells.     

Microheterogeneity of human filaggrin: analysis of a complex peptide mixture using mass spectrometry.

Filaggrin is the product of posttranslational processing of the large, epidermal protein profilaggrin, which consists of 10 or more tandem filaggrin domains plus an amino and a carboxyl domain. According to fragmentary cDNA sequences, the filaggrin domains in the human protein vary at 40% of the amino acid positions; hence, mature filaggrin is a population of homologous but heterogeneous proteins, even within one individual. Available gene sequences give only a limited picture of the heterogeneity of human filaggrin protein because no complete human profilaggrin gene has been sequenced. Questions about the extent of heterogeneity of filaggrin within and between individuals have not been answered, nor have questions concerning the limited proteolytic cleavage of human profilaggrin that generates filaggrin in vivo. In order to address these questions and to provide an analysis of the primary structure of human filaggrins, we employed various methods of mass spectrometry. The intact protein and a tryptic digest of the mixture of human filaggrins were examined by matrix-assisted laser desorption time-of-flight mass spectrometry. Tryptic digests of human filaggrin from single individuals were also separated and analyzed by liquid chromatography/mass spectrometry (LC/MS) (using electrospray mass spectrometry), and specific peptides were identified by tandem mass spectrometry (MS/MS). A robust data analysis program, Sherpa, was developed to facilitate the interpretation of both LC/MS and MS/MS. These experiments show that human filaggrin includes heterogeneity not yet seen in cDNA sequences, but that much structure is highly conserved. Interestingly, we found that the heterogeneity is conserved among individuals. An approximation of the regions linking filaggrins in human profilaggrin is developed. These investigations provide a unique test of the limits of tryptic mapping of complex mixtures using mass spectrometry.     

Hornerin, a novel profilaggrin-like protein and differentiation-specific marker isolated from mouse skin

A novel mouse cDNA named hornerin was isolated by RNA differential display applied to developing mouse skin. Hornerin, which has 2,496 amino acids, comprises EF-hand domains at the N terminus followed by a spacer sequence and a large repetitive domain, indicating that hornerin is a novel member of the "fused gene"-type cornified envelope precursor protein family. The repetitive domain of hornerin was found to be rich in glycine, serine, and glutamine. Hornerin was expressed in the tongue, esophagus, forestomach, and skin among the adult mouse tissues examined, all of them cornifying stratified epithelium. In the embryonic mouse skin, hornerin mRNA was first detected on gestational day 15.5 in the epidermis coincidentally with the formation of a granular layer. In accordance with this, hornerin was detected in the granular and cornified layers of the mature epidermis. In the granular cells of the epidermis, the hornerin protein was detected in keratohyalin granules together with profilaggrin. Furthermore, Western blot analysis of the mouse skin showed that the hornerin protein was cleaved during the process of epidermal differentiation, indicating possible posttranslational proteolytic processing as is observed in profilaggrin. Differentiation of primary mouse epidermal keratinocytes with 0.12 mm Ca(2+) resulted in the induction of hornerin. These results indicate that hornerin is structurally as well as functionally most similar to profilaggrin among the family members and possibly plays pleiotropic roles, including a role in cornification.     

Loss of proteolytically processed filaggrin caused by epidermal deletion of Matriptase/MT-SP1

Profilaggrin is a large epidermal polyprotein that is proteolytically processed during keratinocyte differentiation to release multiple filaggrin monomer units as well as a calcium-binding regulatory NH2-terminal filaggrin S-100 protein. We show that epidermal deficiency of the transmembrane serine protease Matriptase/MT-SP1 perturbs lipid matrix formation, cornified envelope morphogenesis, and stratum corneum desquamation. Surprisingly, proteomic analysis of Matriptase/MT-SP1-deficient epidermis revealed the selective loss of both proteolytically processed filaggrin monomer units and the NH2-terminal filaggrin S-100 regulatory protein. This was associated with a profound accumulation of profilaggrin and aberrant profilaggrin-processing products in the stratum corneum. The data identify keratinocyte Matriptase/MT-SP1 as an essential component of the profilaggrin-processing pathway and a key regulator of terminal epidermal differentiation.     

Inducible expression of filaggrin increases keratinocyte susceptibility to apoptotic cell death

Filaggrin is an intermediate filament associated protein that aids the packing of keratin filaments during terminal differentiation of keratinocytes. Premature aggregation of keratin filaments is prevented by filaggrin expression as the inactive precursor, profilaggrin, which is localized in keratohyalin granules in vivo. We have previously shown that filaggrin constructs, when transiently transfected into epithelial cells, lead to a collapsed keratin cytoskeletal network and dysmorphic nuclei with features of apoptosis. The apparent transfection rate is low with filaggrin constructs, supporting their disruptive role but hindering further study. To bypass this problem, we generated stable keratinocyte cell lines that express mature human filaggrin using a tetracycline-inducible promoter system. We found that cell lines expressing filaggrin, but not control cell lines, exhibited increased sensitivity to multiple apoptotic stimuli as measured by morphologic and biochemical criteria. None of the cell lines showed an increase in endogenous expression of filaggrin in response to the same stimuli. Filaggrin expression alone was insufficient to induce apoptosis in these keratinocyte cell lines. We conclude that filaggrin, due to its keratin binding ability, primes cells for apoptosis. Because filaggrin is expressed at a level of the epidermis where keratinocytes are in transition between the nucleated granular and the anucleate cornified layers, we hypothesize that filaggrin aids in the terminal differentiation process by facilitating apoptotic machinery.     

Molecular cloning of a gene for a member of carcinoembryonic antigen (CEA) gene family; signal peptide and N-terminal domain sequences of nonspecific crossreacting antigen (NCA)

A 2073-base pair DNA fragment containing a part of gene for a member of carcinoembryonic antigen (CEA) gene family, has been isolated from human DNA library after screening with 32P-labeled 53-mer oligodeoxyribonucleotide corresponding to N-terminal 18 amino acids of CEA gene family and cDNA encoding CEA (1,2). The fragment contains two exons; the one encodes the first 60% of signal peptide and the other the rest of it in addition to 107 amino acids which correspond to the N-terminal domain of CEA (1,2). Apparently, the second intron is inserted between the first and the second nucleotides of the codon for 108th amino acid. The presence of Ala instead of Val as the 21st amino acid of the N-terminal domain indicates that the exon encodes nonspecific crossreacting antigen (NCA).     

Caspase-14 protects against epidermal UVB photodamage and water loss

Caspase-14 belongs to a conserved family of aspartate-specific proteinases. Its expression is restricted almost exclusively to the suprabasal layers of the epidermis and the hair follicles. Moreover, the proteolytic activation of caspase-14 is associated with stratum corneum formation, implicating caspase-14 in terminal keratinocyte differentiation and cornification. Here, we show that the skin of caspase-14-deficient mice was shiny and lichenified, indicating an altered stratum-corneum composition. Caspase-14-deficient epidermis contained significantly more alveolar keratohyalin F-granules, the profilaggrin stores. Accordingly, caspase-14-deficient epidermis is characterized by an altered profilaggrin processing pattern and we show that recombinant caspase-14 can directly cleave profilaggrin in vitro. Caspase-14-deficient epidermis is characterized by reduced skin-hydration levels and increased water loss. In view of the important role of filaggrin in the structure and moisturization of the skin, the knockout phenotype could be explained by an aberrant processing of filaggrin. Importantly, the skin of caspase-14-deficient mice was highly sensitive to the formation of cyclobutane pyrimidine dimers after UVB irradiation, leading to increased levels of UVB-induced apoptosis. Removal of the stratum corneum indicate that caspase-14 controls the UVB scavenging capacity of the stratum corneum.     

Identification of proteolytic cleavage sites in the conversion of profilaggrin to filaggrin in mammalian epidermis

Profilaggrin consists of multiple filaggrin domains joined by linker segments which are removed during proteolytic conversion to filaggrin. Analysis of tryptic peptides of filaggrin defined a 26-residue linker segment when aligned on the amino acid sequence of one repeat unit of mouse profilaggrin deduced from a cDNA sequence (Rothnagel, J. A., Mehrel, T., Idler, W. W., Roop, D. R., and Steinert, P. M. (1987) J. Biol. Chem. 262, 15643-15648). Two types of linker segments were distinguished by their different susceptibility to thermolysin and by the presence of a Phe-Tyr-Pro-Val sequence in only one type. These data led to a model of profilaggrin in which the two types of linker segments alternate along the length of profilaggrin. This model provides a structural basis for the two stages of proteolytic processing seen in vivo. In the first stage intermediates accumulate which have several filaggrin domains still joined by linker segments lacking Phe-Tyr-Pro-Val. In the second stage, the other linker segments are cleaved and mature filaggrin domains are released. Proteolytic activity with specificity consistent with first stage cleavage was partially purified from rat epidermis. Chymostatin inhibited both the in vitro enzymatic activity and the processing of profilaggrin in a cultured rat keratinocyte cell line. The products formed in vitro were 3-5 kDa larger than intermediates produced in vivo, suggesting that the linker segments are cleaved at one end only. This implies the existence of a third protease which completes the removal of the linker segments.     

Pheromone 4 gene of Euplotes octocarinatus.

We have cloned and sequenced a 1.7 kb macronuclear chromosome encoding the pheromone 4 gene of Euplotes octocarinatus. The sequence of the secreted pheromone is preceded by a 42 amino acid leader peptide, which ends with a lysine residue. The sequence coding for the leader peptide contains information for a putative signal peptide and is interrupted by a 772 bp intron as shown by comparison with a cDNA clone. A 64 bp intron and a 145 bp intron interrupt the sequence coding for the secreted pheromone. The three introns contain typical 5' and 3' splice junctions and a putative branch point site. The small introns have a low GC content. The large intron has a GC content similar to that of the pheromone 4 gene exons. The amino acid sequence of pheromone 4, deduced from both the genomic DNA and the cDNA of pheromone 4, shows that the secreted pheromone consists of 85 amino acids. One of its amino acids is encoded by a UGA codon. Since it has been shown for pheromone 3 of E. octocarinatus that UGA is translated as cysteine, it is assumed that the UGA codon encodes cysteine in pheromone 4 as well. The 164 bp noncoding region upstream of the leader peptide is AT-rich and contains an inverted repeat capable of forming a stem-loop structure with a stem of 11 bp. The 151 bp noncoding region at the 3' end of the chromosome contains a putative polyadenylation sequence and an inverted repeat. The macronuclear molecule is flanked by telomeres and carries the pentanucleotide motif TTGAA, located at a distance of 17 nucleotides from the telomeres. This motif has been suggested to be involved in the formation of macronuclear chromosomes.     

Normal human epidermal keratinocytes express in vitro specific molecular forms of (pro)filaggrin recognized by rheumatoid arthritis-associated antifilaggrin autoantibodies.

BACKGROUND: The so-called antikeratin antibodies and the antiperinuclear factor are the most specific serological markers of rheumatoid arthritis (RA). They were recently shown to be largely the same autoantibodies and to recognize human epidermal filaggrins and profilaggrin-related proteins of buccal epithelial cells (collectively referred to as (pro)filaggrin). MATERIALS AND METHODS: To further characterize the target antigens, we investigated their expression by normal human epidermal keratinocytes cultured in differentiating conditions, using immunofluorescence and immunoblotting with RA sera and three different monoclonal antibodies to (pro)filaggrin. RESULTS: On the cornified, stratified epithelial sheets obtained in vitro, RA sera with anti(pro)filaggrin autoantibodies (AFA) produced granular staining of the stratum granulosum and diffuse staining of the stratum corneum. The antigens recognized by RA sera strictly colocalized with (pro)filaggrin in keratohyalin granules. Following sequential extraction of the proteins from the epithelial sheets, the RA sera and the three monoclonal antibodies to (pro)filaggrin, recognized a series of low-salt-soluble molecules, including a neutral/acidic isoform of filaggrin and several proteins with sizes and pI intermediates between this isoform and profilaggrin. They also recognized urea-soluble high-molecular-weight profilaggrin-related molecules. CONCLUSIONS: These results show that in vitro epidermal keratinocytes express various molecular forms of (pro) filaggrin that bear epitopes targeted by AFA of RA sera, and that some of these are absent from epidermis. Moreover, these epitopes, which are present on the keratohyalin granules of buccal epithelial cells but not on those of epidermal cells, are present on the granules of the cultured keratinocytes. This work completes the molecular characterization of the proteins targeted by AFA.     

The structure of the gene for mouse filaggrin and a comparison of the repeating units

Filaggrins are an important class of intermediate filament-associated proteins that are involved in the organization of keratin filaments in the terminal stages of mammalian epidermal differentiation. Filaggrins are initially synthesized as very large polyprotein precursors consisting of many tandemly arranged repeats that are later liberated by proteolytic processes to yield many copies of the functional protein. We have recently characterized a cDNA clone to mouse filaggrin (Rothnagel, J. A., Mehrel. T., Idler, W. W., Roop, D. R., and Steinert, P. M. (1987) J. Biol. Chem. 262, 15643-15648) which encodes a 750-base pair (250-amino acid) repeating element having properties consistent with a filaggrin molecule. Southern blot analysis of total mouse DNA and the mouse gene isolated from a cosmid library (cosmid clone cFM6.1A2) has also revealed a repeat length of about 750 base pairs. The cosmid clone contains most of the mouse filaggrin gene, but it is missing the 5'-noncoding sequences and possibly some coding sequences as well. We report here that cosmid clone cFM6.1A2 contains 20 filaggrin repeats and 15,213 base pairs of coding sequences. Sequence analysis of this clone has revealed at least two different types of repeating element. Type B has a repeat length of 750 base pairs (250 amino acids), whereas type A is 765 base pairs (255 amino acids) long and contains an additional five amino acids inserted next to an acidic sequence that delineates the amino and carboxyl termini of the filaggrin repeats. It is supposed that these additional five amino acids may alter the proteolytic sensitivity of the acidic linker sequence, thereby affecting the processing of the precursor. The random distribution of the two types of repeats in the precursor indicates that the mouse filaggrin gene arose by a complicated series of duplications and/or rearrangements.     

Neutral Cysteine Protease Bleomycin Hydrolase Is Essential for the Breakdown of Deiminated Filaggrin into Amino Acids

Filaggrin is a component of the cornified cell envelope and the precursor of free amino acids acting as a natural moisturizing factor in the stratum corneum. Deimination is critical for the degradation of filaggrin into free amino acids. In this study, we tried to identify the enzyme(s) responsible for the cleavage of deiminated filaggrin in vitro. First, we investigated citrulline aminopeptidase activity in the extract of newborn rat epidermis by double layer fluorescent zymography and detected strong activity at neutral pH. Monitoring the citrulline-releasing activity, we purified an enzyme of 280 kDa, comprised of six identical subunits of 48 kDa. The NH₂ terminus of representative tryptic peptides perfectly matched the sequence of rat bleomycin hydrolase (BH). The enzyme released various amino acids except Pro from β-naphthylamide derivatives and hydrolyzed citrulline-β-naphthylamide most effectively. Thus, to break down deiminated filaggrin, another protease would be required. Among proteases tested, calpain I degraded the deiminated filaggrin effectively into many peptides of different mass on the matrix-assisted laser desorption/ionization-time of flight mass spectrum. We confirmed that various amino acids including citrulline were released by BH from those peptides. On the other hand, caspase 14 degraded deiminated filaggrin into a few peptides of limited mass. Immunohistochemical analysis of normal human skin revealed co-localization of BH and filaggrin in the granular layer. Collectively, our results suggest that BH is essential for the synthesis of natural moisturizing factors and that calpain I would play a role as an upstream protease in the degradation of filaggrin.The mammalian epidermal keratinocytes arise from proliferating basal cells and move outward through a series of distinct differentiation events to form the stratum corneum (1, 2). During this progressive epidermal differentiation, keratinocytes express different proteins such as keratins, profilaggrin/filaggrin, involucrin, small proline-rich proteins, loricrin, cystatin A, and elafin, which form the cornified envelope of mature corneocytes (3–7). Profilaggrin is synthesized as a large, extremely insoluble phosphoprotein that consists of a unique NH₂-terminal Ca²⁺-binding protein of the S-100 family, linked to 10–20 tandem filaggrin monomer repeats (8–10). Each individual filaggrin repeat is completely removed by proteolysis to generate the mature filaggrin monomer (a molecular mass of 37 kDa in human). Then, filaggrin is completely degraded in the uppermost layer of the stratum corneum to produce a mixture of free and modified hygroscopic amino acids that are important for maintaining epidermal hydration (2, 11–13). In addition, a number of proteins are subjected to various post-translational modifications such as disulfide bonding, N-(γ-glutamyl)-lysine isopeptide cross-linking, and deimination during the terminal differentiation of epidermal keratinocytes (4, 6, 14, 15). Deimination is catalyzed by peptidylarginine deiminase (PAD),² which converts arginine to citrulline in proteins (17–19). The modification seems essential for the processing into free amino acids including citrulline.Several proteases reportedly participate in the processing of profilaggrin. Furin, a member of the proprotein convertase family, has been proposed to cleave the NH₂ terminus of profilaggrin, facilitating the release of the NH₂-terminal S-100 protein (20, 21). In contrast, calpain I and profilaggrin endopeptidase I (PEP-I) were implicated in the processing of the linker regions between the filaggrin monomer repeats to generate the filaggrin monomer (22–25). Recently, significant results regarding the conversion of profilaggrin to filaggrin have been obtained with the knock-out of matriptase/MT-SP1, prostasin/channel-activating serine protease 1/Prss 8, and caspase 14 in mice (26–28). These proteases were a key component of the profilaggrin-processing pathway in terminal epidermal differentiation. However, although the signal initiating the degradation of profilaggrin at a defined stage of the maturation of the stratum corneum was found to be the water gradient within the stratum corneum itself (11), the proteases for the processing of filaggrin and/or the deiminated form into peptides following the breakdown of these peptides to amino acids including citrulline remain unknown.In this study, we have purified a novel aminopeptidase using a deiminated substrate from rat skin homogenate and identified it as a neutral cysteine protease, bleomycin hydrolase (BH). Furthermore, we investigated the processing of the deiminated filaggrin by calpain I or caspase 14. Based on these results, we proposed that calpain I participated preferentially in the processing of deiminated filaggrin into peptides and then BH appeared essential for the breakdown of the peptides into amino acids.     

Complete primary structure of the transacylase (E2b) subunit of the human branched chain alpha-keto acid dehydrogenase complex

We isolated from a placental cDNA library by immunoscreening a cDNA clone encoding the transacylase (E2b) precursor of the human branched chain alpha-keto acid dehydrogenase (BCKDH) complex. The cDNA insert consists of 2,649 base pairs with an open reading frame of 1,431 base pairs which can be translated into 477 amino acids and a 3'-untranslated region of 1,205 base pairs. The deduced amino acid sequence includes a leader peptide of 56 amino acid residues, a lipoyl-bearing domain, a E3-binding domain and an inner core domain. A mature human E2b subunit is likely to contain 421 amino acid residues with a calculated Mr 46,322. The nucleotide sequence of the open reading frame and the deduced amino acid sequence of the human E2b shows 91.6% and 92.0% homology with those of the bovine E2b subunit, respectively.     

The characterization of human epidermal filaggrin. A histidine-rich, keratin filament-aggregating protein

Filaggrin is a histidine-rich, cationic protein that aggregates with keratin filaments in vitro and may function as the keratin matrix protein in the terminally differentiated cells of the epidermis. This protein has been previously isolated from rodent epidermis. In this investigation, a similar protein from human skin was identified, isolated and characterized by biochemical and immunologic techniques. Indirect immunofluorescence of human skin using antiserum to rat filaggrin gave positive immunofluorescence of keratohyalin granules and the stratum corneum. This indicated the presence of a human filaggrin in the epidermis in a localization similar to that of the rodent. The protein was isolated from human epidermis and purified by ion-exchange chromatography and preparative gel electrophoresis. The purified protein crossreacts with antibody to rat filaggrin and migrates as a doublet of molecular weight (Mr) approximately 35 000 on SDS-polyacrylamide gels. It is relatively rich in polar amino acids such as histidine, arginine, serine and glycine, but is poor in nonpolar amino acids. Unlike rodent filaggrin, the human protein contains ornithine. This protein aggregates with human keratin filaments, forming compact macrofibrils in a manner analogous to that of rodent filaggrin. Thus, a human epidermal protein has been isolated which has many of the characteristics of rodent filaggrin and may function as the human keratin matrix protein.     

Biosynthetic pathways of filaggrin and loricrin--two major proteins expressed by terminally differentiated epidermal keratinocytes

We have used immunoelectron microscopy to map the biosynthetic pathways of loricrin and filaggrin in epidermal keratinocytes at successive stages of differentiation in newborn mouse skin. The filaggrin epitope is first detected in large, irregularly shaped, keratohyalin granules (F-granules) in the stratum granulosum, and then distributed throughout the cytoplasms of the innermost layers of stratum corneum cells. We conclude that the poly-protein filaggrin precursor is first accumulated in F-granules, from which it is subsequently released and processed into filaggrin, and becomes associated with the densely packed bundles of keratin filaments inside stratum corneum cells. Its diminished visibility in the outer layers correlates with the known degradation of filaggrin to free amino acids. Loricrin is first detected in small round keratohyalin granules (L-granules), and subsequently at the periphery of cells throughout the stratum corneum. Labeling of purified keratinocyte envelopes establishes that this loricrin epitope is exposed only at their inner (cytoplasmic) surface. Thus loricrin is initially accumulated in L-granules, to be released at a specifically programmed stage of keratinocyte maturation, and incorporated into the covalently cross-linked lining of the cell envelope. Since loricrin is rich in cysteine, L-granules account for the sulfur-rich keratohyalin granules described earlier. Proposals are made to rationalize why, subsequent to synthesis, filaggrin precursor and loricrin should be segregated both from each other and from the rest of the cytoplasm.