Differentiation of activity of a superoxide dismutase inhibitor in human cells exposed to radiation, chemical mutagens and radioadaptive response

The superoxide dismutase (SOD) inhibitor, TRIEN, which enhanced the formation of gamma-induced DNA breaks in cells of healthy donors and patients with Marfan syndrome and Bloom syndrome (repair-defective hereditary diseases), had virtually no effect on the formation of radioadaptive response (RAR) in these systems. Similar results were obtained in studies on cell survival: TRIEN facilitated mortality in cells irradiated with gamma-rays but did not affect RAR formation. TRIEN also increased the deleterious effect of CdCl2, which indicates that SOD apparently plays a certain role in cell defence against this mutagen.     

On the mechanism of adaptive response in human cells

There was investigated one of the mechanisms of adaptive response, related to chromosome aberrations induced by gamma-rays, in lymphocytes of healthy donors and donors with hereditary diseases (Marfan's syndrome and homocystinurea) whose cells are repair-deficient. 3H-thymidine treatment was used as an adaptive dose in G1-period of cell cycle and 8-methoxypsoralen (8-MOP), activated with UV-light, was used as a challenge agents. Cells of healthy donors and cells of patients with Marfan's syndrome had normal adaptive response in relation to gamma-irradiation and photomutagenic action of 8-MOP. There was no induction of adaptive response in realation to gamma-irradiation and 8-MOP photomutagenic action in cells of patients with homocystinurea. The cells from donors characterised with normal repair system and lack of adaptive response 8-MOP photomutagenic action wasn't modified by 3H-thymidine. We have found parallelism of adaptive response protective effect against chromosome aberrations, induced by UV activated 8-MOP and gamma-rays in repair proficient cells of healthy donors and repair deficient cells of patients with Marfan's syndrome. These data lead us to conclusion that mechanism of adaption, at least in some cases has no connection with repair process modification.     

Differential Activity of Superoxide Dismutase Inhibitor in Human Cells under the Action of Radiation, Chemical Mutagens, and upon Radioadaptive Response

The superoxide dismutase (SOD) inhibitor, TRIEN, which enhanced the formation of -induced DNA breaks in cells of healthy donors and patients with Marfan syndrome and Bloom syndrome (repair-defective hereditary diseases), had virtually no effect on the formation of radioadaptive response (RAR) in these systems. Similar results were obtained in studies on cell survival: TRIEN facilitated mortality in cells irradiated with -rays but did not affect RAR formation. TRIEN also increased the deleterious effect of CdCl₂, which indicates that SOD apparently plays a certain role in cell defence against this mutagen.     

Natural and recombinant interferons provide different protection of human cells with impaired repair system (Marfan syndrome) against mutagens

It was shown that pretreatment of human cells with interferons (IF) of different origin has an unequal protective effect under the action of various mutagens with different activity. The protective effect of IF was estimated using the test of sister chromatid exchanges. Natural leucocyte alpha IF is highly effective in healthy human cells and in those of patients having Marfan syndrome. The latter are characterised by disorder in DNA repair under the action of 4-nitroquinoline-1-oxide (4-NQO), 8-methoxypsoralen and gamma-rays. Recombinant interferon (alpha 2) displayed no activity against gamma-rays in cells of healthy donors and patients with Marfan syndrome. Nor was it effective in the cells of patients in the experiments with 4-NQO. The absence of correlation between the ability of IF to protect the cells and their influence on the rate of cell proliferations was established.     

Independence of DNA repair after gamma irradiation and radioadaptive response in lymphocytes of patients with Bloom syndrome

The evidence for independency of DNA repair and radioadaptive response (RAR) was obtained in cells of patients with Bloom syndrome. The cells of patients with Bloom syndrome (human autosomal recessive disorder) are characterized by chromosomal instability and increased risk of malignancy at an early age. Resynthesis of gamma-induced DNA breaks wasn't find in lymphocytes of 3 patients with Bloom syndrome while the level of RAR was the same as in the cells of healthy donors.     

Genetic polymorphism of glutathione-S-transferases and inhibition of DNA repair

A complex investigation of different cell defence systems, such as: DNA repair, antioxidant system (SOD), xenobiotic detoxification system (glutathione-S-transferases M1 and T1), radioadaptive response (RAR) in lymphocytes of patients with hereditary disease of connective tissue (Elers-Danlose syndrome) was carried out. The frequency of genotype GSTM1 (0/0) in children with Elers-Danlose syndrome (23%) is lower as compared to the control group (44%). The lymphocytes of children with Elers-Danlose syndrome were characterized by reduced ability to repair gamma-induced damage of DNA. At given size of the samples of examined children no correlative relationships between GST-status of organism and the condition of other cell defence systems were revealed. The data obtained demonstrate the individual peculiarities of the defence systems in repair-deficient cells of the examined children.     

Craniofacial manifestations in the Marfan syndrome: palatal dimensions and a comparative cephalometric analysis

The purpose of this study was to determine how the craniofacial morphology, evaluated from dental casts and lateral cephalograms, in individuals affected by the Marfan syndrome diverge from healthy control groups. The high and narrow palatal vault as well as maxillary and mandibular retrognathy were strongly correlated to the syndrome. About 70% of the Marfan syndrome patients (n = 76) had been referred for orthodontic treatment, mostly because of crowded teeth or extreme maxillary overjet. In 36%, the orthodontic treatment was carried out before diagnosis or suspicion about the Marfan syndrome. In comparison to healthy orthodontic patients (n = 86), selected because of presence of high and narrow palatal vaults, crowding of teeth, extreme maxillary overjet, and open bite were much more prevalent in the Marfan syndrome patients than in the orthodontic control group.     

Localization of the fibrillin (FBN) gene to chromosome 15, band q21.1.

Fibrillin (FBN), a large extracellular matrix glycoprotein, is an important component of structures called microfibrils. Because fibrillin microfibrils appear to be abnormal in patients with the Marfan syndrome, fibrillin is a candidate for the gene defect in the Marfan syndrome. Derived clones from fibrillin cDNA were used as probes in isotopic and nonisotopic in situ hybridization studies to map the chromosomal location of the fibrillin gene. Fluorescent signals were found on chromosome 15 band q21.1; an excess of silver grains was noted over a similar region of chromosome 15 following in situ hybridization with a tritium-labeled probe. These results are consistent with linkage studies that localize the Marfan gene to chromosome 15.     

Beta and gamma interferons act synergistically to produce an antiviral state in cells resistant to both interferons individually.

We showed previously that the mouse fibroblastoid cell line Ltk-aprt- is resistant to the antiviral effects of beta interferon. This lack of response reflects a partial sensitivity to the interferon that is accompanied by a failure to activate expression of several interferon-regulated genes, although certain other genes respond in a normal manner. We show here that Ltk-aprt- cells were also unable to establish an antiviral state and to activate expression of 2,5-oligo(A) synthetase when treated with gamma interferon. Strikingly, however, treatment with a combination of beta interferon and gamma interferon provided complete protection against viral replication. Although the cells were completely insensitive to up to 250 U of the interferons per ml added singly, essentially complete protection from viral cytopathic effects was achieved when as little as 10 U of each of the interferons per ml were combined. Expression of 2,5-oligo(A) synthetase was also sensitive to this synergistic effect. Activation of an antiviral state could also be achieved by sequential treatment, first with gamma interferon and then with beta interferon. Partial protection against viral replication could be achieved by pretreatment with gamma interferon for as little as 1 h before incubation with beta interferon and could be blocked by the addition of specific antibodies or by cycloheximide, indicating that gamma interferon induces the synthesis of a protein which can act synergistically with a signal produced by the beta-interferon receptor. We suggest that Ltk-aprt- cells suffer from defects in one or more components of the gene activation pathways for both type I and type II interferons. Nonetheless, gamma interferon is able to activate the expression of a gene encoding a protein required for signal transduction. This protein acts synergistically with a transient signal produced in response to beta interferon, thereby activating the expression of a further group of genes.     

Induction of macrophage chemotaxis by aortic extracts from patients with Marfan syndrome is related to elastin binding protein

Marfan syndrome is an autosomal dominantly inherited disorder of connective tissue with prominent skeletal, ocular, and cardiovascular manifestations. Aortic aneurysm and dissection are the major determinants of premature death in untreated patients. In previous work, we showed that extracts of aortic tissues from the mgR mouse model of Marfan syndrome showed increased chemotactic stimulatory activity related to the elastin-binding protein. Aortic samples were collected from 6 patients with Marfan syndrome and 8 with isolated aneurysms of the ascending aorta. Control samples were obtained from 11 organ donors without known vascular or connective tissue diseases. Soluble proteins extracted from the aortic samples of the two patient groups were compared against buffer controls and against the aortic samples from controls with respect to the ability to induce macrophage chemotaxis as measured using a modified Boyden chamber, as well as the reactivity to a monoclonal antibody BA4 against bioactive elastin peptides using ELISA. Samples from Marfan patients displayed a statistically significant increase in chemotactic inductive activity compared to control samples. Additionally, reactivity to BA4 was significantly increased. Similar statistically significant increases were identified for the samples from patients with idiopathic thoracic aortic aneurysm. There was a significant correlation between the chemotactic index and BA4 reactivity, and the increases in chemotactic activity of extracts from Marfan patients could be inhibited by pretreatment with lactose, VGVAPG peptides, or BA4, which indicates the involvement of EBP in mediating the effects. Our results demonstrate that aortic extracts of patients with Marfan syndrome can elicit macrophage chemotaxis, similar to our previous study on aortic extracts of the mgR mouse model of Marfan syndrome (Guo et al., Circulation 2006; 114:1855-62).     

CDK4-mediated MnSOD activation and mitochondrial homeostasis in radioadaptive protection

Mammalian cells are able to sense environmental oxidative and genotoxic conditions such as the environmental low-dose ionizing radiation (LDIR) present naturally on the earth’s surface. The stressed cells then can induce a so-called radioadaptive response with an enhanced cellular homeostasis and repair capacity against subsequent similar genotoxic conditions such as a high dose radiation. Manganese superoxide dismutase (MnSOD), a primary mitochondrial antioxidant in mammals, has long been known to play a crucial role in radioadaptive protection by detoxifying O₂^•− generated by mitochondrial oxidative phosphorylation. In contrast to the well-studied mechanisms of SOD2 gene regulation, the mechanisms underlying posttranslational regulation of MnSOD for radioprotection remain to be defined. Herein, we demonstrate that cyclin D1/cyclin-dependent kinase 4 (CDK4) serves as the messenger to deliver the stress signal to mitochondria to boost mitochondrial homeostasis in human skin keratinocytes under LDIR-adaptive radioprotection. Cyclin D1/CDK4 relocates to mitochondria at the same time as MnSOD enzymatic activation peaks without significant changes in total MnSOD protein level. The mitochondrial-localized CDK4 directly phosphorylates MnSOD at serine-106 (S106), causing enhanced MnSOD enzymatic activity and mitochondrial respiration. Expression of mitochondria-targeted dominant negative CDK4 or the MnSOD-S106 mutant reverses LDIR-induced mitochondrial enhancement and adaptive protection. The CDK4-mediated MnSOD activation and mitochondrial metabolism boost are also detected in skin tissues of mice receiving in vivo whole-body LDIR. These results demonstrate a unique CDK4-mediated mitochondrial communication that allows cells to sense environmental genotoxic stress and boost mitochondrial homeostasis by enhancing phosphorylation and activation of MnSOD.     

Cosegregation of elastin-associated microfibrillar abnormalities with the Marfan phenotype in families.

The Marfan syndrome is a serious heritable connective-tissue disorder characterized primarily by ocular, cardiovascular, and musculoskeletal abnormalities but also involving multiple other tissues and organs of the body. Inherited as an autosomal dominant disorder, the etiology and pathogenesis of the Marfan syndrome are presently unknown. We have documented consistent apparent deficient content of elastin-associated microfibrillar fibers by indirect immunofluorescent (IF) studies of Marfan skin, as well as deficient accumulation of related fibrous materials in cultures of Marfan fibroblasts as compared with normal controls and patients with other heritable disorders of connective tissue. These data have suggested that abnormalities in the microfibrillar component of elastic-fiber systems may have a role in the etiology and pathogenesis of the Marfan syndrome. In the present study, we have analyzed the IF staining patterns of skin and fibroblast cultures from Marfan syndrome patients and normal first-degree relatives in nine Marfan kindreds. Three of these families had at least one affected individual in each of 2 generations, permitting intergenerational comparison of IF patterns. Six kindreds had one or more affected individuals in a single generation, making comparisons between siblings and/or parent-child possible. In all cases, IF abnormalities cosegregated with the Marfan phenotype and all nonaffected family members were normal. Within family groups containing more than one affected individual, the IF staining patterns were similar between affected patients. These data provide further confirmation of consistent and relatively specific deficiency of microfibrillar fibers in Marfan syndrome.     

Radioadaptive response: Efficient repair of radiation-induced DNA damage in adapted cells

To verify the hypothesis that the induction of a novel, efficient repair mechanism for chromosomal DNA breaks may be involved in the radioadaptive response, the repair kinetics of DNA damage has been studied in cultured Chinese hamster V79 cells with single-cell gel electrophoresis. The cells were adapted by priming exposure with 5 cGy of γ-rays and 4-h incubation at 37°C. There were no indication of any difference in the initial yields of DNA double-strand breaks induced by challenging doses from non-adapted cells and from adapted cells. The rejoining of DNA double-strand breaks was monitored over 120 min after the adapted cells were challenged with 5 or 1.5 Gy, doses at the same level to those used in the cytogenetical adaptive response. The rate of DNA damage repair in adapted cells was higher than that in non-adapted cells, and the residual damage was less in adapted cells than in non-adapted cells. These results indicate that the radioadaptive response may result from the induction of a novel, efficient DNA repair mechanism which leads to less residual damage, but not from the induction of protective functions that reduce the initial DNA damage.     

Relationship between finger length and ridge count in patients with Marfan syndrome]

Palmar dermatoglyphs were studied in 38 patients with lens dislocation. The patients were distributed into three groups: Marfan syndrome, mild Marfan syndrome, isolated lens dislocation. Marked arachnodacytyly was observed in the first group. In these patients increase in finger length was positively correlated with the ridge count. Moderate increase in finger length and ridge count was observed in the second group. The relative finger length was lower in patients with isolated lens dislocation than in unaffected persons, though the ridge count did not differ from the control. The relations noted between the finger length and ridge count in Marfan syndrome are in agreement with the suggestion that these two parameters are determined by common cause, namely, the morphogenetic gradient in digital primordia.     

Adaptive response in embryogenesis: IV. Protective and detrimental bystander effects induced by X radiation in cultured limb bud cells of fetal mice

The radioadaptive response and the bystander effect represent important phenomena in radiobiology that have an impact on novel biological response mechanisms and risk estimates. Micromass cultures of limb bud cells provide an in vitro cellular maturation system in which the progression of cell proliferation and differentiation parallels that in vivo. This paper presents for the first time evidence for the correlation and interaction in a micromass culture system between the radioadaptive response and the bystander effect. A radioadaptive response was induced in limb bud cells of embryonic day 11 ICR mice. Conditioning irradiation of the embryonic day 11 cells with 0.3 Gy resulted in a significant protective effect against the occurrence of apoptosis, inhibition of cell proliferation, and differentiation induced by a challenging dose of 5 Gy given the next day. Both protective and detrimental bystander effects were observed; namely, irradiating 50% of the embryonic day 11 cells with 0.3 Gy led to a successful induction of the protective effect, and irradiating 70% of the embryonic day 12 cells with 5 Gy produced a detrimental effect comparable to that seen when all the cells were irradiated. Further, the bystander effect was markedly decreased by pretreatment of the cells with an inhibitor to block the gap junction-mediated intercellular communication. These results indicate that the bystander effect plays an important role in both the induction of a protective effect by the conditioning dose and the detrimental effect of the challenge irradiation. Gap junction-mediated intercellular communication was suggested to be involved in the induction of the bystander effect.     

Coordinated Regulation of Radioadaptive Response by Protein Kinase C and p38 Mitogen-Activated Protein Kinase

Eukaryotic cells are known to have an inducible or adaptive response that enhances radioresistance after a low priming dose of radiation. This radioadaptive response seems to present a novel cellular defense mechanism. However, its molecular processing and signaling mechanisms are largely unknown. Here, we studied the role of protein kinase C (PKC) and mitogen-activated protein kinase (MAPK) in the expression of radioadaptive response in cultured mouse cells. Protein immunoblot analysis using isoform-specific antibodies showed an immediate activation of PKC-alpha upon X-irradiation as indicated by a translocation from cytosol to membrane. A low priming dose caused a prolonged translocation, while a nonadaptive high dose dramatically downregulated the total PKC level. Low-dose X-rays also activated the p38 MAPK. The activation of p38 MAPK and resistance to chromosome aberration formation were blocked by SB203580, an inhibitor of p38 MAPK, and Calphostin C, an inhibitor of PKC. Furthermore, it was demonstrated that p38 MAPK was physically associated with delta1 isoform of phospholipase C (PLC-delta1), which hydrolyzed phosphatidylinositol bisphosphate into diacylglycerol, an activator of PKC, and that SB203580 also blocked the activation of PKC-alpha. These results indicate the presence of a novel mechanism for coordinated regulation of adaptive response to low-dose X-rays by a nexus of PKC-alpha/p38 MAPK/PLC-delta1 circuitry feedback signaling pathway with its breakage operated by downregulation of labile PKC-alpha at high doses or excess stimuli.