Thymidine-kinase activity of cultured cells from individuals with inherited galactokinase deficiency

Cells of a person homozygous for galactokinase deficiency and of her heterozygous parents were found to be deficient in the enzyme thymidine kinase. The decrease in thymidine-kinase activity may be the result of a qualitative alteration in the enzyme molecule. This is reflected in the apparent alteration in the sensitivity of the enzyme to trifluorothymidine. It is suggested that this relationship between the galactokinase and thymidine kinase is not fortuitous but a reflection of their interdependence as found previously in the Chinese hamster.     

Collagen synthesis by cultured skin fibroblasts from siblings with hydroxylysine-deficient collagen

It has been previously shown that dermis from subjects with hydroxylysine-deficient collagen contains approximately 5% of normal levels of hydroxylysine and sonicates of skin fibroblasts contain less than 15% of normal levels of collagen lysyl hydroxylase activity. However, cultures of dermal fibroblasts from two siblings with hydroxylysine-deficient collagen (Ehlers-Danlos Syndrome Type VI) compared to fibroblasts from normal subjects synthesize collagen containing approximately 50% of normal amounts of hydroxylysine. The lysyl hydroxylase deficient cultures synthesize both Type I and Type III collagen in the same proportion as control cultures. Both α1(I) and α2 chains are similarly reduced in hydroxylysine content. Collagen prolyl hydroxylation by normal and mutant cells is severely depressed without ascorbate but in all cultures collagen lysyl hydroxylation is the same with or without ascorbate supplementation. In mutant cells the rate of prolyl hydroxylation measured after release of inhibition by α,α′-dipyridyl is the same as in control cells. The rate of lysyl hydroxylation is reduced in mutant cells but only to approximately 50% of normal.     

Defective phosphorylation and processing of beta-hexosaminidase by intact cultured fibroblasts from patients with mucolipidosis III

Previous studies of the synthesis, phosphorylation, and processing of β-hexosaminidase in cultured fibroblasts from normal individuals and from patients with mucolipidosis II (I-cell disease) (A. Hasilik and E. F. Neufeld, 1980, J. Biol. Chem.225, 4937–4946) have been extended to fibroblasts derived from patients with a related genetic disorder, mucolipidosis III (pseudo-Hurler polydystrophy). The enzyme was biosynthetically labeled in pulse-chase experiments with [³H]leucine and ³³P_i, and isolated from cells and medium by immunoprecipitation. The constitutent α and β chains of the enzyme were separated by polyacrylamide gel electrophoresis under reducing and denaturing conditions, visualized by autoradiography and fluorography, extracted from the gel, and quantitated by liquid scintillation spectrometry. Enzyme produced by fibroblasts from mucolipidosis III patients had a very low but detectable phosphate content; a high proportion of newly made enzyme was secreted, though some remained within the cells and was processed to mature enzyme; the presence of NH₄Cl during the labeling and chase did not significantly increase the amount of enzyme secreted. The β-hexosaminidase produced by mucolipidosis III fibroblasts thus resembled more closely that produced by fibroblasts from patients with mucolipidosis II than the normal enzyme. β-Hexosaminidase made by fibroblasts from mucolipidosis II heterozygotes was similar to the normal enzyme with respect to phosphorylation, processing, and secretion. Mucolipidosis II and III fibroblasts could endocytose normal precursor β-hexosaminidase and process it to the mature form. The deficiency of mature enzyme in the patients' cells may therefore be attributed to failure of the unphosphorylated enzyme to be incorporated into lysosomes, where processing would normally occur.     

Collagen synthesis by cultured skin fibroblasts from siblings with hydroxylysine-deficient collagen.

It has been previously shown that dermis from subjects with hydroxylysine-deficient collagen contains approximately 5% of normal levels of hydroxylysine and sonicates of skin fibroblasts contain less than 15% of normal levels of collagen lysyl hydroxylase activity. However, cultures of dermal fibroblasts from two siblings with hydroxylysine-deficient collagen (Ehlers-Danlos Syndrome Type VI) compared to fibroblasts from normal subjects synthesize collagen containing approximately 50% of normal amounts of hydroxylysine. The lysyl hydroxylase deficient cultures synthesize both Type I and Type III collagen in the same proportion as control cultures. Both alpha 1(I) and alpha 2 chains are similarly reduced in hydroxylysine content. Collagen prolyl hydroxylation by normal collagen lysyl hydroxylation is the same with or without ascorbate supplementation. In mutant cells the rate of prolyl hydroxylation measured after release of inhibition by alpha, alpha'-dipyridyl is the same as in control cells. The rate of lysyl hydroxylation is reduced in mutant cells but only to approximately 50% of normal.     

Sphingomyelinase activities in cultured skin fibroblasts from patients with Niemann-Pick disease

Summary Sphingomyelinase activity in cultured skin fibroblasts from a fetus affected with infantile-type Niemann-Pick disease was 0.5% of control activity; the activities in cells from two patients with adult-type disease (Cases 2 and 3) were 5.0% and 59.0%.Sphingomyelinase activity was separated into three peaks (I–III) by isoelectric focusing. The isoelectric points were 4.5, 4.9, and 5.2 for peaks I, II, and III, respectively. The three peaks in the Case 2 cells were drastically reduced; only a very small peak could be distinguished (pI of 4.7). On the other hand, three peaks were observed in the Case 3 cells. Peak I had a pI of 4.4, peak II a pI of 4.7, and peak III a pI of 5.2. Peak I was found at near normal level, but both peaks II and III were markedly reduced.Sphingomyelinase in the peak I fraction obtained from isoelectric focusing in Case 3 cells was found to have the same Km value as that in control cells.     

Cholesterol synthesis in cultured skin fibroblasts from patients with Huntington's disease

In view of the proposed membrane defect in Huntington's disease, cultured skin fibroblasts from healthy volunteers and patients with Huntington's disease were compared with respect to their ability to carry out de novo synthesis of cholesterol. At confluency, values for incorporation of [14C]acetate and 3H2O into cholesterol, and activities of HMG-CoA reductase (the rate-limiting enzyme in the cholesterol biosynthetic pathway), did not differ significantly in the Huntington's disease cells compared to the controls. Determinations of total cellular cholesterol gave similar ratios of cholesterol/protein and cholesterol/phospholipid in the Huntington's disease and control fibroblasts. The data suggest that the proposed generalized cell membrane abnormality in Huntington's disease cannot be attributed to a defect in the cholesterol biosynthetic pathway.     

Collagen VI deficiency affects the organization of fibronectin in the extracellular matrix of cultured fibroblasts.

Fibronectin is one of the main components of the extracellular matrix and associates with a variety of other matrix molecules including collagens. We demonstrate that the absence of secreted type VI collagen in cultured primary fibroblasts affects the arrangement of fibronectin in the extracellular matrix. We observed a fine network of collagen VI filaments and fibronectin fibrils in the extracellular matrix of normal murine and human fibroblasts. The two microfibrillar systems did not colocalize, but were interconnected at some discrete sites which could be revealed by immunoelectron microscopy. Direct interaction between collagen VI and fibronectin was also demonstrated by far western assay. When primary fibroblasts from Col6a1 null mutant mice were cultured, collagen VI was not detected in the extracellular matrix and a different pattern of fibronectin organization was observed, with fibrils running parallel to the long axis of the cells. Similarly, an abnormal fibronectin deposition was observed in fibroblasts from a patient affected by Bethlem myopathy, where collagen VI secretion was drastically reduced. The same pattern was also observed in normal fibroblasts after in vivo perturbation of collagen VI-fibronectin interaction with the 3C4 anti-collagen VI monoclonal antibody. Competition experiments with soluble peptides indicated that the organization of fibronectin in the extracellular matrix was impaired by added soluble collagen VI, but not by its triple helical (pepsin-resistant) fragments. These results indicate that collagen VI mediates the three-dimensional organization of fibronectin in the extracellular matrix of cultured fibroblasts.     

Hyaluronate synthesized by cultured skin fibroblasts derived from patients with Werner's syndrome.

Hyaluronate in cultured skin fibroblasts derived from patients with Werner's syndrome, who excrete large amounts of urinary hyaluronate, was investigated. The amount of hyaluronate secreted into the medium by Werner's fibroblasts was 2-3-times that of normal fibroblasts, whereas no difference in enzyme activities related to the degradation of hyaluronate was found. Werner's fibroblasts were then cultured in the presence of [3H]glucosamine, and the amount of [3H]hyaluronate and its chain lengths in the medium and matrix (trypsinate) fractions were compared with those of normal cells. No significant difference in the chain length of hyaluronate was observed between normal and Werner's fibroblasts. On the other hand, a significant increase of hyaluronate was found in the matrix fraction of Werner's fibroblasts when the cells reached confluency. In addition, a hyaluronate of small chain length was found in the matrix fraction of Werner's fibroblasts, although this was absent from that of normal cells. It was concluded that the constituents of the extracellular matrix of Werner's fibroblasts differed from those of normal cells, characterized by the presence of a large amount of hyaluronate and a relatively small hyaluronate chain.     

Cytosolic thymidine kinase activity in cultured human fibroblasts from individuals with galactokinase deficiency

The structural genes for human galactokinase (GALK) and the human cytosolic form of thymidine kinase (TK1) are located on 17q21–q22. These two loci are tightly linked, and studies on Chinese hamster cell lines have shown that the expression of TK1 and GALK genes may alter simultaneously. We investigated the possibility of a dependent mutation of TK1 and GALK genes in cultured fibroblasts obtained from two patients homozygous for the GALK^G-deficient gene. Since we showed that the TK1 level varies as a function of the passage and the growth rate of a given strain, our experiments were performed on nonstored skin fibroblasts, between the third and the fifth passage for both controls and patients. We found that TK1 levels in GALK-deficient cells were almost 75% of those observed in control strains with a similar growth rate. Previous results in the literature have shown a pronounced decrease in TK1 activity in three GALK-deficient fibroblastic strains. We suggest that these disparities of TK1 levels in GALK-deficient fibroblasts may be related either to genetic heterogeneity of GALK deficiency or to differences in culture conditions. This work was supported in part by grants from La CNAMTS and l’Université de Paris-Sud (AI 86 10).     

Defective intramitochondrial NADH oxidation in skin fibroblasts from an infant with fatal neonatal lacticacidemia.

A small-for-gestational-age female infant born at term developed severe lactic acidosis and died on day 13 of life. Two previous sibs had also died of overwhelming lactic acidosis in the neonatal period. The lactate-to-pyruvate and 3-hydroxybutyrate-to-acetoacetate ratios were elevated at 136 and 42 to one, respectively. The activities of the pyruvate dehydrogenase complex and pyruvate carboxylase in cultured skin fibroblasts were normal but a defect in respiration was indicated by the low rates of conversion of 1-[14C]pyruvate, glutamate, and lactate to 14CO2 in these cells. Skin fibroblast cultures also displayed an elevated lactate-to-pyruvate ratio (72:1) when incubated with glucose as substrate compared to control cell cultures (20:1). When mitochondrial preparations of skin fibroblasts (prepared by digitonin extraction) were tested for their ability to synthesize ATP from a variety of substrates, it was found that those of the patient made adequate amounts of ATP with either succinate or ascorbate/tetramethyl-phenylenediamine as substrate but not with the NAD-linked substrates pyruvate, isocitrate, and palmitoyl carnitine. We propose that this is indicative of a defect in the respiratory chain between NADH and coenzyme Q, for the first time demonstrable in cultured skin fibroblasts.     

Levels of gamma-glutamyltranspeptidase in cultured skin fibroblasts from cystinotics and normals

The activity of gamma-glutamyltranspeptidase (GGTP) was determined in cultured skin fibroblasts initiated from normals and cystinotics. For the most part, fibroblasts cell lines from patients with nephropathic cystinosis had elevated levels of gamma-glutamyltranspeptidase averaging 37.01 ± 5.88 (16 determinations) as compared with levels in cells from normals of 14.53 ± 1.43 (17 determinations) nanomoles p-nitroaniline released/hr/mg protein with glycylglycine as acceptor substrate. Enzymatic activities also were elevated in affected cells when cystine was the receptor substrate. Increased GGTP is not secondary to the abnormal amounts of intracellular free cystine since the depletion of the cystine pool did not affect the elevated transpeptidase levels. Whether the increased transpeptidase is closely related to the genetic basis for cystinosis, however, remains to be elucidated.     

Changes in the secretion and glycosylation of fibronectin by human skin fibroblasts associated with tuberous sclerosis

Fibroblasts from skin and skin lesions of patients with tuberous sclerosis (TS) and from skin of normal individuals were grown in culture. ELISA showed that the spent medium of those derived from TS skin lesions contained significantly more fibronectin (FN) than spent medium from the other cells. Amino acid compositional analysis of the FN from TS and normal sources revealed no substantial differences. However the FN of fibroblasts from TS-skin lesions was shown by HPAEC to contain a two- to three-fold increased content of carbohydrate. The changed monosaccharide composition was consistent with an increased content of N- and O-linked glycans and with the former containing polylactosamine chains. Fibroblasts from a normal individual were shown to proliferate more slowly and to produce larger cells when grown on FN from a TS skin lesion compared to growth on FN from normal skin. This revised version was published online in November 2006 with corrections to the Cover Date.     

The transformed (initiated) human cell phenotype: study of cultured skin fibroblasts from individuals predisposed to cancer

The present study demonstrated the expression of abnormal phenotypes (biomarkers) in cultured skin fibroblasts from hereditary adenomatosis of the colon and rectum (ACR) and neurofibromatosis (NF) patients. These biomarkers occur systemically and they include cytoskeletal structures, cytotoxicity and sensitivity to transformation by oncogenic agents, expression of transformation-associated antigen, and effects by a tumor promoter. Collectively, these biomarkers define the transformed (initiated) human cell phenotype, as determined through use of cultured skin fibroblasts that were obtained from individuals at risk of cancer. In conjunction with clinical signs, these biomarkers can be used to determine gene expression and gene penetrance. Extension of these studies in the form of a multiparameter matrix may permit the early detection of cancer.     

Organization of stress fibrils in cultured fibroblasts studied by using an actin filament-fragmenting protein

Earlier we isolated a 1:1 complex of 90 kD-protein and actin from bovine brain. This complex was able to fragment actin filaments. Effects of this complex on the cytoskeleton of mouse and quail embryo fibroblasts are described. The cells were extracted with Triton X-100, and the resulting cytoskeletons were treated with the complex. Tetramethylrhodaminylphalloin and actin antibody staining failed to detect actin in preparations treated with the 90 kD protein-actin complex. Electrophoretic data confirmed actin solubilization upon this treatment. Immunofluorescent microscopy showed that actin solubilization was accompanied by extraction of vinculin and alpha-actinin from focal contacts and stress-fibers. In contrast, myosin distribution in treated cytoskeletons did not differ significantly from that in control extracted cells: in both the cases myosin was found mainly in the stress-fibers. Thus, myosin localization in stress-fibers does not depend on actin and is probably controlled by some other cytoskeletal component(s).     

Properties of beta-glucosidase in cultured skin fibroblasts from controls and patients with Gaucher disease.

Membrane-bound beta-glucosidase from cultured skin fibroblasts can be solubilized in an active form by treatment of membrane preparations with a mixture of Triton X-100 and sodium taurocholate. Several properties of the solubilized enzyme have been studied in fibroblasts from normal, healthy individuals and from 14 patients with different clinical forms of Gaucher disease. The patients studied were classified as follows: group 1 consisted of 10 chronic patients, all (with one exception) of Ashkenazi Jewish origin; group 2 consisted of three black American patients with severe visceral symptoms, manifest from early childhood, but with no apparent neurological involvement; and group 3 consisted of a single white patient with the classical infantile form of the disease. Specific beta-glucosidase activity ranged from 6.6% to 16.5% mean control value in group 1 patients and from 4.1% to 5.8% in groups 2 and 3. When compared with the enzyme from control fibroblasts, the enzyme from chronic Gaucher patients (group 1) was more rapidly inactivated at 50 degrees C, had an altered pH curve, was less effectively inhibited by deoxycorticosterone-beta-glucoside, and was more effectively inhibited by deoxycorticosterone. The enzyme from patients in groups 2 and 3 was qualitatively indistinguishable from the control enzyme in terms of these parameters. No differences in Km (4-methylumbelliferyl-beta-glucoside) or sedimentation coefficient were found between the beta-glucosidases from control and Gaucher cells. The results demonstrate that cells from Ashkenazi Jewish patients with the chronic form of Gaucher disease contain a structurally altered form of beta-glucosidase. This enzyme differs both from normal beta-glucosidase and from the residual enzyme in patients of different ethnic origin and with clinically more severe forms of the disease.     

The effect of beta,beta'-iminodipropionitrile (IDPN) on cytoskeletal organization in cultured human skin fibroblasts

By impairing the axonal transport of neurofilaments, IDPN induces large, filament-filled swellings in the proximal portion of axons of spinal motor neurones. We have reported that 2,5-hexanedione, another agent producing focal accumulation of neurofilaments, induces aggregation of intermediate filaments of the vimentin type in human skin fibroblasts grown in tissue culture. IDPN was tested in this model to determine if this chemical also affects a general mechanism involved in cytoplasmic transport of the cytomatrix or a process exclusive to axonal flow of neurofilaments. Although aggregates of intermediate filaments were seen in fibroblasts exposed to IDPN, they did not occur in the absence of generalized cytotoxicity and were labelled by antisera against tubulin, actin and fibronectin in addition to vimentin. It is probable the effect of IDPN on the distribution of intermediate filaments was secondary to changes in cell shape occurring during slow detachment from the substratum.     

Chemical and viral transformation of cultured skin fibroblasts from patients with familial polyposis coli

Treatment of skin fibroblasts from an FPC patient with 4NQO or MNNG followed by sequential passaging caused morphological changes of the cells, which showed characteristics of transformed cells such as a high frequency of colony formation in agarose, increased growth ability, and chromosomal abnormalities. This and other fibroblast lines from 5 of 12 FPC patients had an increased susceptibility to 4NQO cytotoxicity, which was caused by enhanced 4NQO-reductase activity rather than by reduced DNA repair. However, the susceptibility to cytotoxicity of MNNG and repair of MNNG-damaged DNA were normal in FPC cells. The tumor promoters TPA and DHTB enhanced the frequency of chemical transformation of the FPC fibroblasts, and protease inhibitors suppressed the promoter-enhanced transformation. The skin fibroblasts from many FPC patients exhibited increased susceptibility to transformation by murine sarcoma viruses. Analysis of the viral DNA and RNA after infection revealed that the increased susceptibility is determined at an early stage of transformation. Two out of 5 MNNG-transformed clones of FPC fibroblasts, isolated from agarose, had increased expression of c-Ki-ras or c-Ha-ras, and 4 of 4 MSV-transformed clones showed high expression of viral Ki-ras. These clones grew further after isolation from agarose, but were mortal and did not form tumors in nude mice. The present results suggest that additional changes in morphologically transformed FPC fibroblasts are required for malignant transformation.     

Outside-in regulation of integrin clustering processes by ECM components per se and their involvement in actin cytoskeleton organization in a colon adenocarcinoma cell line

We investigated in a colon adenocarcinoma cell line, the exclusive role of extracellular matrix (ECM) components in the absence of soluble factors regarding the integrin clustering processes, and their implication in cell adhesion, spreading and organization of the actin cytoskeleton. Caco-2 cells were shown to express at the plasma membrane 11 integrins, some of which (e.g. alpha3beta1, alpha5beta1, alpha6beta1/beta4, alpha8beta1 and alpha(v)beta1/beta5/beta6) were identified for the first time in this cell line. Cell adhesion and spreading processes were governed essentially by lamellipodium, the regulation of which was shown to be induced by two types of integrin clustering processes mediated by ECM proteins alone. During these phenomena, alpha2beta1, alpha(v)beta6 and alpha6beta1 integrins, the Caco-2 cell specific receptors of type IV collagen, fibronectin and laminin, respectively, were clustered in small focal complexes (point contacts), whereas alpha(v)beta5, the vitronectin receptor in this cell line, was aggregated in focal adhesions. The two levels of integrin clustering induced only F-actin cortical web formation organized in thin radial and/or circular filaments. We conclude thus that ECM components per se through their action on integrin clustering are involved in cell adhesion, cortical actin cytoskeleton organization and cell spreading.