Urinary excretion of epidermal-type fatty acid-binding protein and S100A7 protein in patients with cutaneous melanoma.

Epidermal-type fatty acid-binding protein (E-FABP), a protein related to the intracellular trafficking of fatty acids, is expressed in melanocytic tumours but not in normal human melanocytes. E-FABP interacts with S100A7. The presence of these two proteins was investigated in the urine of patients with cutaneous melanoma or other types of cancer, and healthy controls. The first voided morning urine samples of 31 patients with melanoma, 73 patients with other types of cancer and 17 healthy controls were concentrated and submitted to sodium dodecyl sulphate-polyacrylamide gel electrophoresis (SDS-PAGE) immunoblotting for protein detection. In the healthy controls, the incidences of urinary detection of these proteins were higher in females than in males, being 50% (five out of 10) versus 0% (zero out of seven) for E-FABP ( < 0.05), and 70% (seven out of 10) versus 0% (zero out of seven) for S100A7 ( < 0.05). Both proteins were detected in the urine of patients with melanoma. The incidence of S100A7 was higher in the urine of patients with melanoma (77%, 24 out of 31) compared with healthy controls (41%, seven out of 17) and patients with other types of cancer (53%, 39 out of 73) ( < 0.03). In contrast, the incidence of E-FABP was the same among the melanoma group (39%, 12 out of 31), healthy controls (29%, five out of 17) and patients with other types of cancer (23%, 17 out of 73). Surprisingly, E-FABP was always detected in the urine of females with stage I/II or III melanoma, but was no longer detectable in the urine of patients with stage IV melanoma. Urinary S100A7 may have some specificity to the host response to melanoma since its incidence was not increased in other cancers. The lack of E-FABP detection in the urine of patients with distant metastases suggests an inverse relationship between E-FABP release and the spread of melanoma.

The antibacterial activity of topical retinoids: the case of retinaldehyde.

BACKGROUND: Retinoids such as retinoic acid (RA), retinol (ROL) and retinaldehyde (RAL) are currently used in many formulations and indications ranging form acne to skin aging. Most if not all their pharmacological activities occur through binding to nuclear receptors with subsequent modulation of the activities of several genes. Little attention has been given to the many other potential actions on the surface of the skin. AIM: To analyse the potential anti-infective activities of topical ROL, RAL and RA. METHODS: Microbial minimal inhibitory concentrations (MIC) of ROL, RAL and RA were determined by a microdilution method on reference strains including Staphylococcus aureus, Staphylococcus epidermidis, Micrococcus flavus, Propionibacterium acnes, Micrococcus luteus, Enterococcus faecium, Staphylococcus hominis, Escherichia coli, Pseudomonas aeruginosa, Candida albicans and 133 clinical strains including methicillin-resistant S. aureus, methicillin-sensitive S. aureus, coagulase-negative Staphylococcus, Streptococcus group B, Enterococcus faecalis, vancomycin-resistant E. faecalis, vancomycin-resistant E. faecium and Pseudomonas/Klebsiella. In two clinical trials in healthy human volunteers, skin bacterial densities were evaluated in samples obtained with the cylinder scrub method: (1). 2 and 5 h after a single application of 0.05% RAL or vehicle on the forearm and (2). in a single-blind randomized study where 0.05% RAL or vehicle were applied daily for 2 weeks on the forehead of 22 volunteers. Paired results from treated (or vehicle) and untreated areas were analysed. RESULTS: Of the three retinoids tested, only RAL showed a significant in vitro antibacterial activity; this activity was found against reference strains of gram-positive bacteria like S. aeureus, Micrococcus spp. or P. acnes. No activity was found against gram-negative bacteria. These results on reference strains were confirmed on 133 clinical isolates. MIC(50) and MIC(90) values for RAL were 8 and 16 mg/l, respectively, for methicillin-sensitive S. aureus and 4 and 8 mg/l for methicillin-resistant S. aureus. The two in vivo studies showed that areas treated with RAL had a significant decrease in the bacterial counts. In the forehead study, the median decrease was 10(2) log/cm(2) for P. acnes and 10(1.8) log/cm(2) for staphylococci. No resistant bacteria were found after 2 weeks of topical use. Preliminary results suggest that the antibacterial effect of RAL is due, in part, to the aldehyde group in the lateral chain, since non-retinoid pseudo-analogues of the chain, like citral and hexenal, showed a similar antibacterial activity. CONCLUSION: We have shown that RAL differs from parent natural retinoids such as ROL and RA in demonstrating significant antibacterial activities upon topical use. This activity is likely due to the aldehyde group in the isoprenoic lateral chain, which illustrates the potential bifunctional properties of some retinoids.

Antibacterial activity of retinaldehyde against Propionibacterium acnes.

BACKGROUND: Retinaldehyde has been shown to exert antibacterial activity in vitro. AIM: This study evaluates the effect of retinaldehyde on Propionibacterium acnes both in vivo and in vitro. METHODS: Microbial minimal inhibitory concentrations (MICs) of retinaldehyde and retinoic acid were determined on reference strains of P. acnes. In vivo activity of daily topical application of 0.05% retinaldehyde on the P. acnes density was evaluated after application in a single-blind randomised study. RESULTS: MICs of retinaldehyde were 4 mg/l for P. acnes No. CIP179 and CIP53119 and 8 mg/l for P. acnes No. CIP53117. In contrast, the MICs of retinoic acid were superior to 128 mg/l for these three strains. In vivo, retinaldehyde-treated areas displayed a significant decrease in counts of viable P. acnes as compared with the untreated areas with a median decrease of 10(2) log P. acnes/cm(2) after 2 weeks of daily application. Vehicle alone had no effect. CONCLUSION: The MIC of retinaldehyde against P. acnes suggests a direct antibacterial activity. Daily topical application of 0.05% retinaldehyde is associated with a clear reduction of the P. acnes density.

Probable interaction between S100A7 and E-FABP in the cytosol of human keratinocytes from psoriatic scales.

The overexpression of E-FABP and S100A7 in lesional psoriatic skin suggests a possible link with this hyperproliferative skin disease. In order to investigate a role for the proteins in this disease, the purifications for both proteins were re-analyzed. Moreover, a specific antiserum directed against purified human S100A7 was generated. By SDS-PAGE immunoblotting we show that E-FABP and S100A7 are expressed in cultured human differentiating keratinocytes and confirm their overexpression in psoriatic scales. Gel filtration and non-denaturing PAGE revealed that S100A7 co-purified with E-FABP, indicating an association between the two proteins. Ion-exchange chromatography resulted in the dissociation of the complex. Finally, immunoprecipitations using antiserum against E-FABP revealed that S100A7 co-immunoprecipitated with E-FABP from protein extracts of psoriatic scales. These data indicate that E-FABP and S100A7 might form a complex in the cytosol of human keratinocytes.

Calcium-binding protein S100A7 and epidermal-type fatty acid-binding protein are associated in the cytosol of human keratinocytes.

Expression of epidermal-type fatty acid-binding protein (E-FABP) and S100A7 has previously been shown to be elevated in psoriatic skin, a disease characterized by abnormal keratinocyte differentiation. However, no causal relationship between the up-regulation of these proteins and the disease has been shown. E-FABP is thought to be involved in cytosolic fatty acid (FA) transport, whereas the role of S100A7 is still unknown. In this report, we show by overlay assays that E-FABP, immobilized on nitrocellulose, is able to capture S100A7 from cytosolic psoriatic protein extracts and vice versa, suggesting the formation of a complex between the two proteins. Using purified E-FABP and S100A7, the complex can be reconstituted only in presence of EDTA. Moreover, we show that increased EDTA concentrations in psoriatic cytosolic protein extracts enhance complex formation. Partial complex disruption was obtained by the addition of physiological concentrations of Zn2+ (0.1 mM), whereas Ca2+ at 5 mM and Mg2+ at 30 mM had no effect. On the other hand, high Ca2+ concentrations (30 mM) resulted in partial complex disruption. Oleic acid-binding properties were observed for free E-FABP and the complex E-FABP-S100A7, but not for free S100A7. By using confocal microscopy we show that S100A7 and E-FABP are co-localized in the cytoplasm of differentiating keratinocytes from lesional psoriatic skin. These data indicate that formation of the E-FABP-S100A7 complex and its FA-binding function might be regulated at least by bivalent cations.

The fatty acid-binding heterocomplex FA-p34 formed by S100A8 and S100A9 is the major fatty acid carrier in neutrophils and translocates from the cytosol to the membrane upon stimulation.

Since no data are available concerning fatty acid (FA) transport in neutrophils we studied the presence of possible FA carriers. The kFA-p34 complex, composed of S100A8 and S100A9, has been implicated in the intracellular transport of arachidonic acid and its precursors in human keratinocytes. Here, we show that FA-p34 is the major FA carrier in human neutrophils (nFA-p34). The complex is highly expressed in resting neutrophils (2.65% of cytosolic proteins) and translocates to the membrane fraction upon stimulation with opsonized zymosan. Comparison of purified nFA-p34 with kFA-p34 shows that both complexes are composed of nearly the same subunits and possess similar binding properties for oleic acid. Densitometrical analyses of 2D gels show that n and kFA-p34 contain twice as much S100A8 and S100A9 suggesting an estimated stoichiometry of (S100A8)2S100A9. A method is described allowing to distinguish n and kFA-p34 from S100A8/S100A9 homo- and heteromer complexes that are devoid of FA-binding properties. After solvent extraction, we find by GC analysis linoleic acid as major endogenous ligand of purified kFA-p34. Our results suggest that nFA-p34, might be involved in the shuttling of unsaturated FA between the cytosol and the plasma membrane of neutrophils.

Differentiation of human epidermal keratinocytes is accompanied by increased expression of CRABP-II and increased cellular concentration of retinoic acids: retention of newly synthesized retinoic acids by CRABP-II.

Keratinocytes differentiating in vitro exhibit greater cytosolic capacity for retinoic acid synthesis from retinol or retinaldehyde as compared to nondifferentiated cells (Siegenthaler et al. 1990. Biochem. J. 268: 371-378), and increased expression of CRABP-II (Siegenthaler et al. 1988. Exp. Cell Res. 178: 114-126). Based on these observations, the content and disposition of [3H]retinoic acids were determined in intact, nondifferentiated and differentiating keratinocytes incubated with [3H]retinaldehyde or [3H]retinol. Differentiating keratinocytes contained higher levels of [3H] retinoic acids compared to undifferentiated cells when either [3H]retinaldehyde or [3H]retinol was the substrate. The largest increases in [3H]retinoic acids were achieved with [3H]retinaldehyde. Differentiation-associated increases in [3H]retinoic acids correlated with cellular content of retinoid alcohol substrates in incubations with retinaldehyde but not in incubations with retinol. Consistent with previous observations, CRABP-II was significantly increased in differentiating cells. Moreover, newly synthesized [3H]retinoic acids were retained within cells bound to CRABP-II. The results suggest that increasing cellular concentration of retinoic acids in in vitro differentiating keratinocytes is achieved by a combination of increased activity of the retinoic acid synthesis pathway and increased cellular content of CRABP-II.

The effects of oral liarozole on epidermal proliferation and differentiation in severe plaque psoriasis are comparable with those of acitretin.

The imidazole derivative liarozole is a potent inhibitor of cytochrome P450-dependent 4-hydroxylation of endogenous all-trans retinoic acid, thereby increasing the levels of all-trans retinoic acid in both plasma and skin. As part of a large, double-blind, randomized clinical study, we investigated the cell biological alterations in uninvolved and lesional skin of 20 patients with severe plaque psoriasis, who were treated with either liarozole or acitretin. The extent and severity of the skin lesions, as recorded by the Psoriasis Area and Severity Index score, was significantly reduced (P

Retinoic acid signaling cascade in differentiating murine epidermal keratinocytes: alterations in papilloma- and carcinoma-derived cell lines.

The retinoic acid (RA) signaling pathway was investigated by transient transfection of a chloramphenicol acetyltransferase (CAT) reporter gene construct containing the RA response element (RARE) of the murine (m) RARbeta2 gene into murine primary epidermal keratinocytes (PEK), papilloma-derived SP1 cells, and carcinoma-derived 3P2 cells. Murine PEK transfected in a low-Ca2+ medium (0.05 mM Ca2+) exhibited a strong transactivation of the CATgene after exposure of the cells to 0.1 microM RA. Transactivation of the CATgene could, however, also be achieved by shifting RAREbeta2-transfected low-Ca2+ PEK to high-Ca2+ conditions (0.15-1.2 mM Ca2+). Concomitantly, the Ca2+ raise also led to the induction of both cellular retinol (ROL)-binding protein I (CRBPI) and cellular RA-binding protein II (CRABPII), whereas expression of cellular RA-binding protein I (CRABPI) was not observed. Moreover, induction of in vitro differentiation also activated the ROL-->RA converting enzyme system in PEK. These findings suggest the following sequence of events involved in the high Ca2+-mediated activation of RAREbeta2. First, high Ca2+ induces the synthesis of mCRBPI, which binds ROL released from retinyl ester stores and makes it accessible to the ROL-RA converting enzyme system. Enzymatically generated RA is taken over by mCRABPII and transported to the nucleus, where it acts as ligand for nuclear receptors, which complex with RAREbeta2 to activate the reporter gene. This hypothetical cascade of RA signaling was supported by our findings that inhibition of the ROL-->RA converting enzyme system by citral abolished the Ca2+-mediated transactivation of the CAT gene in a nontoxic manner. Studies in transformed murine cell lines revealed that Ca2+-induced activation of RAREbeta2 was essentially maintained in papilloma-derived SP1 cells, although all parameters of the Ca2+-dependent RAREbeta2 activation cascade were induced to a much lower extent. In contrast, strong RAREbeta2 activity was already observed in low-Ca2+ carcinoma-derived 3P2 cells. Low-Ca2+ 3P2 cells also expressed high levels of both mCRBPI and mCRABPII and possessed a highly active ROL-->RA converting enzyme system. Again, inhibition of the enzyme by citral abolished RAREbeta2 activity in low-Ca2+ 3P2 cells. Our data show that Ca2+-induced differentiation in cultured murine PEK entails a series of events that ultimately lead to the activation of RARE-containing genes. These properties are maintained in transformed epidermal keratinocytes. However, with increasing malignant potential of the cells, the respective signaling pathway becomes independent from a differentiation stimulus and leads to constitutive activation of RARE-controlled genes.

Endothelial cells of the human microvasculature express epidermal fatty acid-binding protein.

Epidermal fatty acid-binding protein (E-FABP), previously characterized in human keratinocytes, is a cytoplasmic protein of 15 kD that specifically binds fatty acids (FAs). Previous PAGE-immunoblotting studies indicated that several human tissues display an immunoreactive band with an electrophoretic mobility identical to that of E-FABP. The aim of this study was to determine in which cells, other than keratinocytes, E-FABP might be expressed. By immunohistochemistry, we show that E-FABP is expressed in endothelial cells of the microvasculature of the placenta, heart, skeletal muscle, small intestine, lung, and renal medulla. Interestingly, in lung, a tissue of endodermal origin, E-FABP staining was also localized to secretory cells, ie, Clara cells, goblet cells, and probably a subpopulation of pneumocytes. RNA isolated from cultured human umbilical vein and normal human dermal microvascular endothelial cells was analyzed by reverse-transcriptase polymerase chain reaction (RT-PCR). Southern blotting and sequencing of the cloned RT-PCR products demonstrate that endothelial E-FABP is identical to keratinocyte E-FABP. These data suggest that E-FABP-mediated FA transport occurs at the level of the microvasculature in several FA target organs.

A heterocomplex formed by the calcium-binding proteins MRP8 (S100A8) and MRP14 (S100A9) binds unsaturated fatty acids with high affinity.

We show that unsaturated fatty acids (FAs) bind reversibly and with high affinity to a heterocomplex of 34 kDa (FA-p34) formed by the non-covalent association of two calcium-binding proteins of the S100 family: MRP8 (S100A8) and MRP14 (S100A9). Fatty acid-competition studies on the [3H]oleic acid.FA-p34-complex show that oleic, alpha-linoleic, gamma-linolenic, and arachidonic acids have IC50 values of about 1 microM, whereas palmitic and stearic acids are poor competitors. The binding of arachidonic acid is saturable with a single class of binding site per FA-p34, and a dissociation constant (Kd) of 0.13 microM is calculated. The individual subunits MRP8 and MRP14 show no binding properties for fatty acids, whereas a p34 complex reconstituted in vitro by the recombinant molecules exhibits binding properties, suggesting that the fatty acid-binding site of FA-p34 is created through heterocomplex formation. Furthermore, we demonstrate that lowering free Ca2+ levels to 16 nM results in a loss of the fatty acid-binding capacity of purified FA-p34. In calcium-induced differentiating keratinocytes, the amounts of FA-p34 are increased in the particulate (2.0 +/- 0.5 pmol of [3H]oleic acid/mg protein) and in the cytosolic (4.5 +/- 0.6 pmol of [3H]oleic acid/mg protein) fractions, whereas no FA-p34 can be detected in non-differentiated cultured keratinocytes. In abnormally differentiated keratinocytes (psoriasis) and in human polymorphonuclear leukocytes, FA-p34 is highly expressed (31.35 +/- 1.6 and 349.8 +/- 17.9 pmol of [3H]oleic acid/mg protein, respectively), pointing toward a role for this heteromer in mediating effects of unsaturated fatty acids in a calcium-dependent way during cell differentiation and/or inflammation.

Skin-derived antileukoproteinase (SKALP) and epidermal fatty acid-binding protein (E-FABP): two novel markers of the psoriatic phenotype that respond differentially to topical steroid.

Recently we have described two novel markers for disturbed epidermal differentiation, which are strongly upregulated in psoriatic epidermis: skin-derived antileukoproteinase (SKALP) and epidermal fatty acid-binding protein (E-FABP). No data are available on the kinetics of SKALP and E-FABP expression in vivo and the relation with epidermal growth and differentiation. We used treatment of lesional psoriatic skin with topical steroid as a model to correlate the expression pattern of SKALP and E-FABP with known cell biological events during regression of the psoriatic lesion. Expression of these markers was studied using immunohistochemistry and Northern blot analysis. After 4 weeks of treatment a substantial clinical improvement was induced by the topical steroid, whereas no significant improvement had occurred at the placebo-treated sides. The expression of SKALP following treatment with steroid was nearly undetectable both at the protein and mRNA level. Mitotic activity, as measured by Ki-67 staining, and cytokeratin 16 expression were downregulated to normal levels in the steroid-treated epidermis. In contrast, although there was a marked decrease of E-FABP mRNA, the staining pattern for E-FABP at the protein level was not affected. After 4 weeks of treatment with steroid the complete suprabasal compartment remained positive, even after considerable clinical improvement of the lesion. We conclude that SKALP and cytokeratin 16 are markers that are downregulated even before complete macroscopic clearance of the lesion. The kinetics of E-FABP expression is distinct from the other molecules and lags behind the clinical signs of psoriasis.

Decreases in retinol and retinol-binding protein during total parenteral nutrition in rats are not due to a vitamin A deficiency.

Perfusion feeding in rats induced a decrease in circulating retinol despite an adequate supply of vitamin A. We studied the effect of total parenteral nutrition (TPN) on the retinol specific carrier in rat, analyzing holo-RBP (bound to retinol) and apo-RBP (without retinol) in serum and in liver. Vitamin A-sufficient (A+) and -deficient (A-) rats were characterized in terms of vitamin A and RBP status and then perfused (TPN-A+ and TPN-A-) or orally pair-fed (O-A+ and O-A-) with vitamin A. In A+ rats, a decrease in serum retinol (2.6-fold) and an increase in apo-RBP was concomitant with a massive accumulation of RBP in the liver. In TPN-A rats, both circulating RBP and liver total RBP were decreased. In TPN-A+ rats, there was a decrease in circulating retinol (2.4-fold) in parallel to a decrease of serum and liver RBP protein and mRNA. We provide evidence that infused retinyl palmitate was not responsible for serum retinol and RBP decrease and that retinol depletion was not due to vitamin A deficiency. Whatever the vitamin A status, TPN may induce in rats a down-regulation of hepatic RBP synthesis, which may, at least partially, explain the alteration of retinol and RBP in serum.

Changes in keratinocyte differentiation following mild irritation by sodium dodecyl sulphate.

Although the induction of acute irritant dermatitis by detergents has been studied extensively in recent years, our understanding of the cell biological events in the repair phase, and its relevance for the development of chronic irritant dermatitis is limited. Here we studied the reaction pattern of human skin to short-term application of sodium dodecyl sulphate (SDS) in a model that induced a minimal acute inflammatory reaction (absence of polymorphonuclear leucocytes, PMN) and did not have cytopathic effects on the epidermal keratinocytes as determined by histological investigation. All parameters were measured up to 14 days after exposure to SDS. Application of SDS caused disturbances of barrier function as measured by transepidermal water loss and had vascular effects as judged by erythema. Several cell biological markers for epidermal growth and differentiation were examined by immunohistochemistry. A rapid and strong induction of the cornified envelope precursor protein involucrin was seen in the stratum spinosum, with a peak at 24 h. Within 24 h a strong upregulation of epidermal fatty acid binding protein (E-FABP) was noted, with a peak at 7 days after injury. Cellular proliferation in the basal layer was increased fivefold as assessed by nuclear staining for the Ki-67 antigen, showing a peak at 48 h. Surprisingly, no significant induction of cytokeratin 16 and SKALP/elafin expression, two markers associated with epidermal hyper-proliferation and inflammation, was seen. These findings suggest that the cellular changes following exposure to detergent are distinct from those seen in other forms of skin injury. We would speculate that the epidermal response to detergent exposure is primarily directed at restoration of barrier function.

Analysis of normal and truncated holo- and apo-retinol-binding protein (RBP) in human serum: altered ratios in chronic renal failure.

Retinol, the precursor of the retinoic acid hormone, is transported in the serum by a specific carrier, the retinol-binding protein (RBP). Compared to serum of healthy controls, the serum of patients with chronic renal failure (CRF) contains markedly increased levels of the RBP form truncated at the C terminal, des(182Leu-183Leu), (RBP2), which suggests that RBP2 is cleared by the kidney in healthy people but accumulates in serum of CRF patients (Jaconi S, et al. J Lipid Res 1995:36:1247-53). To understand better the mechanism of retinol transport, we have developed a new analytical strategy to analyze the various forms of RBP that circulate in the blood: RBP with and without retinol (holo- and apo-RBP, respectively), RBP bound or not to transthyretin (TTR) and to determine in which of these forms RBP2 circulates. We confirm, but now by direct measurement, that holo-RBP and, to a larger extent, apo-RBP are increased in CRF serum compared to normal serum. We also show that almost all apo-RBP and about 50% of total holo-RBP, corresponding to RBP excess in CRF serum, circulate free and are not complexed to TTR, the remaining 50% being complexed to TTR. This observation suggests that the high levels of free holo-RBP, not bound to TTR, which correspond to the increase in total RBPs measured in CRF serum, may alter the tissue uptake of retinol and be responsible for the signs of hypervitaminosis A observed in these patients. Secondly, we found that the truncation resulting in RBP2 does not alter its binding properties for retinol nor those of holo-RBP2 for TTR. We observed that the high amounts of free holo-RBP2 and holo-RBP in sera of CRF patients were low in normal serum, suggesting that these forms are cleared by the kidney in normal conditions. The possible role of free holo-RBPs is discussed in the context of retinol recycling.

Ichthyosiform dermatosis with superficial blister formation and peeling: evidence for a desmosomal anomaly and altered epidermal vitamin A metabolism.

We describe a man with generalized congenital ichthyosiform dermatosis, severe cheilitis, and palmar and plantar hyperkeratosis with superficial blistering. Low-dose acitretin therapy induced areas of peeling skin, similar to that seen in the peeling skin syndrome. Histologically, the skin was moderately hyperkeratotic and the palmar blisters were subcorneal. Electron microscopy revealed that the splitting occurred within the desmosomal plaque. Ultrastructural and biochemical investigations indicated epidermal hypervitaminosis A, probably related to alteration of epidermal retinoic acid metabolism. This disease is proposed as a hitherto unreported variant of the peeling skin syndrome.

Epidermal fatty-acid-binding protein in psoriasis, basal and squamous cell carcinomas: an immunohistological study.

BACKGROUND: In human keratinocytes, we have recently characterized a low-molecular-weight cytosolic protein of 15 kD that specifically binds fatty acids (FAs) with high affinity, the epidermal FA-binding protein (E-FABP). The distribution of E-FABP in skin diseases is not known. OBJECTIVE: To localize by immunohistochemistry the expression of E-FABP in psoriasis, basal and squamous cell carcinomas in order to obtain indirect information, at the cellular level, on the transport of the FAs. RESULTS: E-FABP was localized in the upper stratum spinosum and stratum granulosum in normal and non-lesional psoriatic skin. In contrast, lesional psoriatic epidermis strongly expressed E-FABP in all suprabasal layers, like nonkeratinized oral mucosa. The basal layer did not express E-FABP reactivity in any of these samples. Accordingly, basal cell carcinomas were E-FABP negative whereas only well-differentiated cells of squamous cell carcinomas expressed E-FABP. CONCLUSION: It is unlikely that E-FABP plays a significant role in FA uptake by basal cells. Our data rather indicate that E-FABP expression is related to the commitment of keratinocyte differentiation and that the putative role of E-FABP should not be restricted to the formation of the skin lipid barrier. Since the pattern of E-FABP expression mimics cellular FA transport, our results suggest that lesional psoriatic skin and oral mucosa have a higher metabolism/transport for FAs than normal and non-lesional psoriatic epidermis.

Extra-and intracellular transport of retinoids: a reappraisal.

Retinoids are a family of compounds including retinol (ROL; vitamin A) and ROL derivatives that exert a powerful control over cell differentiation. Retinol-binding protein (RBP) is the specific blood carrier transporting ROL, the precursor of the retinoic acid (RA) hormone, to target tissues. Recently, it was reported that, in addition to the native RBP, two truncated forms of RBP, RBP1 and RBP2, are also present in normal serum. RBP2, the form which has lost the two N-terminal Leu is dramatically increased in serum of patients with chronic renal failure (CRF) whereas this form is very low in normal serum. There is strong evidence that RBP2 is formed in vitamin A target tissues, and that after its release into blood circulation, it is cleared by the kidney in healthy people but accumulates in the serum of CRF patients. It appears that RBP2 may play an important physiological role in ROL transport and recycling. Within the cell, two cellular retinoic acid-binding proteins (CRABP-I and -II) and a ROL-binding protein (CRBP-I) regulate the levels of free RA and ROL. The expression of these retinoid-binding proteins in a given tissue may reflect the extent of retinoid metabolism. The most intense traffic of retinoids was found in differentiating keratinocytes, whereas nondifferentiated keratinocytes showed very low activities, suggesting that retinoids control cell differentiation in keratinocytes committed to differentiate. Moreover, these data indicate that normal function of epidermis requires precise amounts of CRABP-I and -II that a dysregulation of these carriers can alter keratinocyte differentiation by inducing inadequate intracellular levels of RA.

Amino acid sequence analysis of human S100A7 (psoriasin) by tandem mass spectrometry.

The Ca(2+)-binding proteins regulate a number of cellular and extracellular activities and deregulations of S100 gene expression are associated with several human diseases. For example, S100A7 is upregulated in psoriatic skin, implicating a link with psoriasis, a chronic inflammatory dermatosis. We purified human S100A7 and determined its protein sequence by tandem mass spectrometry and Edman microsequence analysis. Interestingly, a sequence comparison of S100A7 with all known human S100 proteins showed that S100A7 is the most divergent of all S100 proteins.

Characterization of two post-translationally processed forms of human serum retinol-binding protein: altered ratios in chronic renal failure.

Retinol-binding protein (RBP) is the specific blood carrier for the transport of retinol (vitamin A) to target tissues. As the kidney is involved in RBP metabolism, the analysis of RBP species in the serum of patients with chronic renal failure (CRF) was used as a model to study possible RBP alterations. SDS-PAGE-immunoblotting analysis of normal and CRF sera shows a doublet of RBP bands (band A and band B) near 21 kDa. Mass spectrometric analysis of purified RBPs from CRF and normal sera revealed the presence not only of full-length RBP (183 residues, migrating in band A) but also two forms of RBP differing from the native form by the loss of C-terminal Leu (i.e., RBP1 (residues 1-182), migrating in band A also) and the loss of C-terminal Leu-Leu (i.e., RBP2 (residues 1-181), migrating in band B). Interestingly, RBP2 was considerably increased in the serum of CRF, whereas it was low in normal sera. In healthy retinol target-tissues and in cultured HepG2 cells, RBP2 levels were significantly and variably present compared to RBP and RBP1. We propose that these post-translationally modified forms of RBP occur in cells and that after their release into the blood circulation RBP2 is cleared by the kidney in healthy individuals but accumulates in the serum of CRF patients. RBP2 may have an important physiological role in retinol transport and/or recycling.