The extraction of polymeric collagen from biopsies of human skin

1. Medium sized biopsies (100 mm2) of human skin from 14 subjects yielded sufficient polymeric collagen for depolymerisation and ultrastructural investigations. 2. The yields obtained from one skin specimen by the alpha-amylase, EDTA and lyotropic relaxation (water) methods of extracting polymeric collagen are similar. 3. The responses to depolymerisation treatments of the three polymeric collagen samples extracted by each of the three methods from one skin specimen are cross-correlated. There are however electron microscopical differences between the three polymeric collagen samples. 4. The results show that it feasible to study the polymeric collagen of normal and diseased human skin from medium sized biopsies.     

The potential mechanism for glutamine-induced collagen biosynthesis in cultured human skin fibroblasts

Although glutamine (Gln) is known as an important stimulator of collagen biosynthesis in collagen-producing cells, the mechanism and endpoints by which it regulate the process remain largely unknown. Intermediates of Gln interconversion: glutamate (Glu) and pyrroline-5-carboxylate (P5C) stimulate collagen biosynthesis in cultured cells but evoke different maxima of collagen biosynthesis stimulating activity at different times of incubation. P5C was found to be the most potent stimulator of collagen biosynthesis after 6 h of incubation (approx. three-fold increase); after 12 h, it induced increase in collagen biosynthesis to 260%, while at 24 h, the process was decreased to approximately 80% of control values. Glu induced increase in collagen biosynthesis to approximately 180%, 400% and 120% of control values, after 6, 12 and 24 h, respectively, suggesting that after 12 h of incubation, Glu was the most potent stimulator of collagen biosynthesis. Glu was also the most potent stimulator of type I procollagen expression at this time. After 6, 12 and 24 h incubation, Gln induced collagen biosynthesis to approximately 112, 115 and 230% of control values, respectively. Since prolidase is known to be involved in collagen metabolism, the enzyme activity assay was performed in fibroblasts cultured in the presence of Gln, Glu and P5C. While Gln and Glu required 24 h for maximal stimulation of prolidase activity, P5C induced it after 6-12 h. The data suggest that P5C induced collagen biosynthesis and prolidase activity in a shorter time than Gln and Glu. We considered that P5C directly stimulates the processes, while Gln acts through its intermediate-P5C. Reduction of P5C to proline is coupled to the conversion of glucose-6-phosphate (G6P) to 6-phospho-gluconate, catalyzed by G6P dehydrogenase. We have found that dehydroepiandrosterone (DHEA), a potent inhibitor of G6P dehydrogenase, inhibited a stimulatory effect of P5C on collagen synthesis, expression of type I collagen and prolidase activity. Our results postulate a potential mechanism of glutamine-induced collagen biosynthesis through its intermediate - P5C. P5C-dependent activation of nucleotide biosynthesis, prolidase activity and P5C conversion into proline may contribute to the stimulation of collagen biosynthesis.     

Effect of melanin on netilmicin-induced inhibition of collagen biosynthesis in human skin fibroblasts

It is known that various drugs form complexes with melanins and that melanins are abundant constituents of the inner ear. In this study, we determined whether the aminoglycoside antibiotic, netilmicin, interacts with melanin and how this process affects collagen biosynthesis in cultured human skin fibroblasts. The obtained results indicate that netilmicin forms stable complexes with melanin characterized by the association constants K₁  10⁶ M⁻¹ and K₂  10³ M⁻¹. We have suggested that prolidase, an enzyme involved in collagen metabolism, may be one of the targets for aminoglycoside-induced inhibition of collagen biosynthesis. We found that netilmicin strongly induced inhibition of prolidase activity (IC₅₀ < 5 μM) and collagen biosynthesis (IC₅₀  10 μM). At 10 μM concentration of netilmicin, prolidase activity in human skin fibroblasts was inhibited by about 80% and DNA biosynthesis—only by about 25%. Melanin at 100 μg/mL produced about 30% inhibition of collagen biosynthesis and about 30% inhibition of prolidase activity in cultured fibroblasts. However, the addition of melanin (100 μg/mL) to netilmicin-treated cells (10 μM) restored the prolidase activity in fibroblasts to almost 100% of control values and partially reversed the inhibitory action of the drug on collagen and DNA biosynthesis. The data suggest that the ability of netilmicin to form stable complexes with melanin may prevent its toxicity on prolidase activity and collagen biosynthesis.     

Melanin counter act puromycin-induced inhibition of collagen and DNA biosynthesis in human skin fibroblasts

Puromycin is an experimental anti-tumor antibiotic acting through inhibition of protein synthesis. Because of its untoward side effects (as inner ear and renal lesions) the antibiotic was not approved for clinical trials. The mechanism underlying the organ specificity of the side effect is not understood. In view of the fact that a number of drugs form with melanin complexes that affect their pharmacological activity, we determined whether puromycin interacts with melanin and how this process affects biosynthesis of collagen in cultured human skin fibroblasts. Our results indicate that puromycin forms complexes with melanin. The amount of puromycin bound to melanin increases with increase of initial drug concentration. The Scatchard plot analysis of the drug binding to melanin has shown that at least two classes of independent binding sites are implicated in the puromycin-melanin complex formation: one class of strong binding sites with the association constant K1 = 1.84 x 10(6) M(-1), and the second class of weak binding sites with the association constant K2 = 5.26 x 10(3) M(-1). The number of total binding sites were n1 = 0.1260 and n2 = 0.2861 mumol puromycin per 1 mg melanin. We found that puromycin induced inhibition of collagen and DNA biosynthesis (IC50 approximately 2 microM). Melanin at 100 microg/ml produced about 20% inhibition of DNA synthesis, but it had no effect on collagen biosynthesis in cultured fibroblasts. However, the addition of melanin (100 microg/ml) to puromycin - treated cells (2 microM) abolished the inhibitory action of puromycin on collagen and DNA biosynthesis. We have suggested that IGF-I receptor expression, involved in collagen metabolism, may be one of the targets for puromycin - induced inhibition of collagen biosynthesis. It was found that melanin abolished puromycin induced decrease in the expression of IGF-I receptor as well MAP kinases expression: ERK1 and ERK2 as shown by Western immunoblot analysis. These data suggest that tissue specific pharmacological activity of puromycin may depend on the melanin abundance in tissues.     

Hyaluronan affects protein and collagen synthesis by in vitro human skin fibroblasts

Given the importance of hyaluronan (HA) for the homeostasis of connective tissues during embryogenesis and aging and its role in tissue repair, the aim of the present study was to examine the effect of exogenous HA on the synthesis of total protein, collagen and HA by in vitro human dermal fibroblasts. With differences between different cell strains, HA, at concentrations between 0.5 and 1 microM, induced a significant decrease in total protein synthesised and secreted into the medium compared to controls (P < 0.05), and particularly in collagen (-40%; P < 0.05). The ratios between collagen types I and III and between collagen types V and I were normal. Pulse and chase experiments showed that protein degradation was normal. The presence of exogenous HA did not affect HA synthesis. Data strongly indicate that a relatively high concentration of HA in the extracellular space, such as during development and in the first phases of tissue repair, would partially limit the deposition of the extracellular matrix, and of collagen in particular. This would suggest a role for HA in delaying tissue differentiation during embryogenesis and in preventing fibrosis and scar formation in fetus and in the early phases of wound healing.     

Potential role of pyrroline 5-carboxylate in regulation of collagen biosynthesis in cultured human skin fibroblasts

Although insulin-like growth factor-I (IGF-I) is known as an important stimulator of collagen biosynthesis in collagen-producing cells, the mechanism and endpoints by which it regulate the process remain largely unknown. Serum of acutely fasted rats contained reduced amount of IGF-I (72+/-16 ng/ml) and showed about 75% reduced ability to stimulate collagen and DNA synthesis in confluent human skin fibroblasts in comparison to the effect of control rat serum (IGF-I, 168+/-19 ng/ml). An addition of IGF-I (at least 40 ng/ml) to fasted rat serum restored its mitogenic activity but could not restore its ability to stimulate collagen biosynthesis to control values during 24 h of incubation. However, when the cells were incubated in fasted rat serum supplemented with 40 ng/ml of IGF-I for 48 h, collagen biosynthesis was restored to control values. It suggests that the stimulatory role of IGF-I in collagen biosynthesis undergo indirectly. We considered pyrroline-5-carboxylate (P5C) as a candidate to play a direct role in this process. Since IGF-I and P5C are known to be decreased in serum of fasted rats it seems that the action of IGF-I on collagen biosynthesis may involve participation of P5C. We have found that serum of fasted rats (showing low level of P5C) supplemented with 1 mmol/l P5C induced collagen biosynthesis in confluent human skin fibroblasts during 24 h to control values. Supporting evidence comes from the experiment showing stimulatory action of P5C on collagen biosynthesis in fibroblasts cultured in serum-free medium. Our results postulate potential role of P5C in regulation of collagen biosynthesis and indicate participation of this molecule in the pathway of IGF-I action in this process.     

Fasting-induced inhibition of collagen biosynthesis in rat skin. A possible role for phosphoenolpyruvate in this process

Fasting is accompanied by a decrease in collagen biosynthesis. The mechanism of this phenomenon involves inhibition of prolidase activity, an enzyme that plays a key role in upregulation of collagen metabolism. The mechanism of fasting-induced inhibition of prolidase activity is not known. Phosphoenolpyruvate (PEP) is known as a strong inhibitor of prolidase activity. It exerts this effect by inhibition of the enzyme phosphorylation. Unphosphorylated prolidase is inactive. One may expect that fasting-associated increase in posphoenolpyruvate content in animal tissues may be a factor which inactivates prolidase and makes it inactive in collagen biosynthesis. We measured the levels of phosphoenolpyruvate, pyruvate, and pyruvate kinase in the skin of control and fasted rats and correlated these parameters with prolidase expression, prolidase activity and collagen biosynthesis in this tissue. Significant increase of PEP concentration (about 30%) was found in the skin of fasted rats. In the same time prolidase activity and collagen biosynthesis decreased by about 50% and 30%, respectively, compared to controls. It is known that phosphoenolpyruvate is converted to pyruvate by the action of pyruvate kinase. Since fasting significantly decreases the activity of this enzyme, one may suggest that the accumulation of PEP is caused by a reduced utilisation of this metabolite. As demonstrated by Western immunoblot analysis the decrease in prolidase activity was not accompanied by a decrease in the amount of the enzyme protein. Instead, a decrease in the enzyme phosphorylation was observed. The reduction in phosphorylation seems to be responsible for the decrease in prolidase activity. These data suggest that fasting-evoked accumulation of PEP reduces the activity of prolidase, providing a mechanism for inhibition of collagen biosynthesis in the skin.     

In vitro reconstruction of full thickness human skin on a composite collagen material

Rapid progress of in vitro techniques in the lastyears enabled the creation of organotypic skin cultures offering newpossibilities in wound treatment. Rebuilding of graft is one of the keyelementsof successful outcome of the procedure.In search for the best scaffold for organotypic skin culture, the novelcomposite xenogenic collagen based material with unique properties has beencreated and used to reconstitute full thickness human skin invitro. Based on our long established technology used for theproduction of collagen dressings for the treatment of burns, this novel,composite material offers excellent growth support of highly biodegradablespongy layer, combined with mechanical strength of collagen membrane. Themodulation of collagen properties was accomplished by consecutive treatmentwithhigh temperature and gamma irradiation. The use of the substrate enabled toobtain organotypic culture that resembles full thickness skin with fibroblastslayer and well-developed multilayer epithelium. Our new material offers easyhandling of obtained graft during surgery along with accelerated cell growth andcontrolled biodegradation of the culture support.     

Competitive RT-PCR for studying gene expression in micro biopsies

Characterization of cathepsin B from buffalo kidney and goat spleen showed the presence of isozymes in case of the goat spleen (GSCB-I and GSCB-II) whereas cathepsin B from buffalo kidney exhibited only one form (BKCB). The molecular weights determined by SDS-PAGE for GSCB-I, GSCB-II, and BKCB were 25.7, 26.6 and 25.5 kDa respectively. The kinetic parameters (K_m and V_max) of GSCB-I showed close similarities with BKCB against -N-benzoyl-DL-arginine-2-napthylamide whereas GSCB-II was closer to the buffalo enzyme with regards to its activity against Z-Arg-Arg-MCA and Z-Phe-Arg-MCA. All the three enzymes had similar sensitivities towards urea, antipain and leupeptin. However, clear differences were observed in the inhibition patterns of the enzyme with iodoacetic acid and iodoacetamide. Differences in the kinetic, immunogenic and some catalytic properties of GSCB-I and II, which had similarities with regard to most of their physico-chemical properties, were considered to be due to the existenceof two isozyme forms in goat spleen cathepsin B preparations. Absence of such a multiplicity in forms of the enzyme from buffalo kidney was accordingly attributed to the absence of cathepsin B isozymes in this species. These observations taken together therefore, indicate a probable species/tissue dependence of cathepsin B.     

A novel approach for studying angiogenesis: A human skin equivalent with a capillary-like network

Angiogenesis results from an ordered set of events that can be modulated in vivo by a variety of angiogenesis-enhancing or inhibiting agents. We review in vitro angiogenesis models and the agents that enhance or inhibit angiogenesis. We also discuss a new in vitro angiogenesis model created within a skin equivalent. Briefly, endothelial cells were combined with the cutaneous cells of a standard skin equivalent and cultured in a chitosan cross-linked collagen-glycosaminoglycan scaffold of this endothelialized skin. This model enables the formation of capillary-like structures in a coculture environment containing newly synthesized extracellular matrix by fibroblasts and keratinocytes. Several morphological characteristics associated with the microvasculature in vivo were observed in the endothelialized skin equivalent such as histotypic organization of tubular structures, basement membrane deposition, and intercellular junction formation. This revised version was published online in July 2006 with corrections to the Cover Date.     

Increased type-III/type-I collagen ratios in diabetic human conjunctival biopsies

The ratio of type-III to type-I collagen is measured in human conjunctival biopsies from control and diabetic subjects. The tissue is digested by CNBr and the resulting peptides are quantified by SDS polyacrylamide gel electrophoresis. The peptides used are alpha 1-(I)CB7 and alpha 1-(III)CB8. In control population, of type-III collagen slightly increases with age. In two diabetic populations, (juvenile onset diabetes and maturity onset diabetes), the percentage of type-III collagen is significantly higher than in age-matched control groups. These data plus those previously obtained on genetically diabetic mice indicate that diabetes mellitus affects the expression of interstitial collagen phenotype. Preliminary results on prediabetic subjects suggest the role of genetic factors in such alterations.     

Co-culture of human gastric endoscopic biopsies with Helicobacter pylori: a simple method for studying early phases of bacteria-host interaction

Gastric biopsies obtained through endoscopy from patients uninfected by Helicobacter pylori were co-cultured with an H. pylori strain. According to tissue and H. pylori viability, interleukin 8 was increased in biopsy homogenate and supernatant after 12-36h culture. This simple method is suitable to investigate early phases of bacteria-host interaction.     

A new method for studying human oocytes by light and electron microscopy

Since ovarian follicles appear to be randomly oriented with respect to the plane of the section, the method of sectioning and examining follicles at their maximum diameter described here allows direct comparison between oocyte populations of women and small differences can be detected. Re-sectioning for EM allows selected follicles of interest to be examined at a higher resolution.     

Use of periodate-lysine-paraformaldehyde for the fixation of multiple antigens in human skin biopsies

Periodate-lysine-paraformaldehyde (PLP) has been proposed as a fixative for glycoprotein antigens which should stabilize periodate oxidized polysaccharide chains through lysine mediated crosslinks, either directly or by the intermediation of formaldehyde. In spite of premises and attempts reported in the literature, this fixative has never become popular for the study of membrane antigens of immune system cells, which leads to doubts on its real efficacy. We have addressed this issue in biopsies of human skin and found that PLP followed by cryoprotection with 30% sucrose and cryosectioning, or PLP fixation of isolated epidermal sheets, consistently provided for good preservation of morphology and intense labeling of major histocompatibility complex class II molecules, CD 1 a, CD4, CD8, E-cadherin, cytokeratins in general, cytokeratin-18 in particular, and bromodeoxyuridine, incorporated by cycling cells in vitro, and for the demonstration of tyrosinase enzyme activity. PLP-fixed, osmicated and epon-embedded epidermal sheets proved as good as sheets fixed with a mixture of formaldehyde and glutaraldehyde for electron microscopic morphological analysis. Also, these sheets were amenable to immunoperoxidase staining of Langerhans cell membrane antigen CD1a and keratinocyte membrane antigen E-cadherin before being osmicated and prepared for electron microscopy. In a parallel paper, we had also shown that oral mucosa biopsies fixed in PLP showed good morphology and immunolabeling of CD54, CD80, CD83 and CD86. Therefore, we conclude that PLP can be proposed as a multi-task fixative for light and electron microscopic analysis of membrane, cytoplasmic and nuclear antigens of immune system cells and keratinocytes.