Targeted deletion of the genes encoding NTH1 and NEIL1 DNA N-glycosylases reveals the existence of novel carcinogenic oxidative damage to DNA

We have generated a strain of mice lacking two DNA N-glycosylases of base excision repair (BER), NTH1 and NEIL1, homologs of bacterial Nth (endonuclease three) and Nei (endonuclease eight). Although these enzymes remove several oxidized bases from DNA, they do not remove the well-known carcinogenic oxidation product of guanine: 7,8-dihydro-8-oxoguanine (8-OH-Gua), which is removed by another DNA N-glycosylase, OGG1. The Nth1^?/?Neil1^?/? mice developed pulmonary and hepatocellular tumors in much higher incidence than either of the single knockouts, Nth1^?/? and Neil1^?/?. The pulmonary tumors contained, exclusively, activating GGT → GAT transitions in codon 12 of K-ras of their DNA. Such transitions contrast sharply with the activating GGT → GTT transversions in codon 12 of K-ras of the pathologically similar pulmonary tumors, which arose in mice lacking OGG1 and a second DNA N-glycosylase, MUTY. To characterize the biochemical phenotype of the knockout mice, the content of oxidative DNA base damage was analyzed from three tissues isolated from control, single and double knockout mice. The content of 8-OH-Gua was indistinguishable among all genotypes. In contrast, the content of 4,6-diamino-5-formamidopyrimidine (FapyAde) and 2,6-diamino-4-hydroxy-5-formamidopyrimidine (FapyGua) derived from adenine and guanine, respectively, were increased in some but not all tissues of Neil1^?/? and Neil1^?/?Nth1^?/? mice. The high incidence of tumors in our Nth1^?/?Neil1^?/? mice together with the nature of the activating mutation in the K-ras gene of their pulmonary tumors, reveal for the first time, the existence of mutagenic and carcinogenic oxidative damage to DNA which is not 8-OH-Gua.     

Glucagon receptor is required for long-term survival: A natural history study of the Mahvash disease in a murine model

Background and aimWe have described a novel Mahvash disease of hyperglucagonemia and pancreatic neuroendocrine tumors (PNETs) associated with an inactivating glucagon receptor mutation, and identified the glucagon receptor-deficient (Gcgr^?/?) mice as its murine model. We aim to elucidate the natural history of the rare Mahvash disease by long-term observation of the Gcgr^?/? mice.Materials and methodWild type (WT) (n = 52), heterozygous (n = 127), and Gcgr^?/? (n = 56) mice living under standard vivarium conditions were observed without specific treatments over 22 months. Autopsy was performed on dead animals.ResultsThe WT and heterozygous mice did not exhibit any measurable differences. The Gcgr^?/? mice became progressively lethargic and cachexic after 12 months. Random glucose levels were stable in WT and heterozygous mice but decreased with age in the Gcgr^?/? mice. At the end of observation, 28/56 Gcgr^?/?, 7/52 WT, and 24/127 heterozygous mice died. The survival curve of Gcgr^?/? mice began to separate from those of WT and heterozygous mice at 12 months and the survival difference widened with age. At 18 months, survival probability was 17% for Gcgr^?/? mice but 77% for WT and 81% for heterozygous mice. Autopsy revealed numerous PNETs up to 15 mm in diameter in most well-preserved Gcgr^?/? pancreata (17/20) but none in WT or heterozygous ones. Four Gcgr^?/? mice developed liver or subcutaneous metastasis.ConclusionThe untreated Mahvash disease may cause cachexia, severe hypoglycemia, and early death. Patients with Mahvash disease need to undergo life-long surveillance for PNETs. Functional glucagon receptor is thus required for long-term survival.     

Heat shock protein-27 attenuates foam cell formation and atherogenesis by down-regulating scavenger receptor-A expression via NF-κB signaling

Previously, we showed an inverse correlation between HSP27 serum levels and experimental atherogenesis in ApoE^?/? mice that over-express HSP27 and speculated that the apparent binding of HSP27 to scavenger receptor-A (SR-A) was of mechanistic importance in attenuating foam cell formation. However, the nature and importance of the interplay between HSP27 and SR-A in atheroprotection remained unclear. Treatment of THP-1 macrophages with recombinant HSP27 (rHSP27) inhibited acLDL binding (? 34%; p < 0.005) and uptake (? 38%, p < 0.05). rHSP27 reduced SR-A mRNA (? 39%, p = 0.02), total protein (? 56%, p = 0.01) and cell surface (? 53%, p < 0.001) expression. The reduction in SR-A expression by rHSP27 was associated with a 4-fold increase in nuclear factor-kappa B (NF-κB) signaling (p < 0.001 versus control), while an inhibitor of NF-κB signaling, BAY11-7082, attenuated the negative effects of rHSP27 on both SR-A expression and lipid uptake. To determine if SR-A is required for HSP27 mediated atheroprotection in vivo, ApoE^?/? and ApoE^?/? SR-A^?/? mice fed with a high fat diet were treated for 3 weeks with rHSP25. Compared to controls, rHSP25 therapy reduced aortic en face and aortic sinus atherosclerotic lesion size in ApoE^?/? mice by 39% and 36% (p < 0.05), respectively, but not in ApoE^?/?SR-A^?/? mice. In conclusion, rHSP27 diminishes SR-A expression, resulting in attenuated foam cell formation in vitro. Regulation of SR-A by HSP27 may involve the participation of NF-κB signaling. Lastly, SR-A is required for HSP27-mediated atheroprotection in vivo.     

Requirement for functional DNA polymerase eta in genome-wide repair of UV-induced DNA damage during S phase

The autosomal recessive disorder Xeroderma pigmentosum-variant (XPV) is characterized (i) at the cellular level by dramatic hypermutability and defective recovery of DNA synthesis following UV exposure, and (ii) clinically by abnormal sunlight sensitivity and remarkable predisposition to skin cancer. These phenotypes are clearly attributable to germline mutations in POLH, encoding DNA polymerase eta (polη) normally required for accurate translesion DNA synthesis (TLS) past UV-induced cyclobutane pyrimidine dimers. Here we demonstrate that patient-derived XPV-skin fibroblasts exposed to 15 J/m² of UV also exhibit (in addition to abnormal TLS) a significant defect in global-genomic nucleotide excision repair (GG-NER) exclusively during S phase. This cell cycle-specific GG-NER defect can be complemented by ectopic expression of wild-type polη, but not of polη variants deficient in either nuclear relocalization or PCNA interaction. We highlight a previous study from our laboratory demonstrating that UV-exposed, ATR-deficient Seckel syndrome fibroblasts, like XPV fibroblasts, manifest strong attenuation of GG-NER uniquely in S phase populations. We now present further evidence suggesting that deficient S phase repair can be rescued in both XPV- and Seckel syndrome-cells if the formation of blocked replication forks post-UV is either prevented or substantially reduced, i.e., following, respectively, pharmacological inhibition of DNA synthesis prior to UV irradiation, or exposure to a relatively low UV dose (5 J/m²). Our findings in cultured cells permit speculation that abrogation of GG-NER during S phase might partially contribute (in a synergistic manner with defective, atypically error-prone TLS) to the extreme state of UV-hypermutability leading to accelerated skin cancer development in XPV patients. Moreover, based on the overall data, we postulate that loss of either functional polη or -ATR engenders abnormal persistence of stalled replication forks at UV-adducted sites in DNA which, in turn, can actively and/or passively trigger GG-NER inhibition.     

The dioxin receptor controls β1 integrin activation in fibroblasts through a Cbp–Csk–Src pathway

Recent studies have suggested a regulatory role for the dioxin receptor (AhR) in cell adhesion and migration. Following our previous work, we report here that the C-terminal Src kinase-binding protein (Cbp) signaling pathway controls β1 integrin activation and that this mechanism is AhR dependent. T-FGM AhR ?/? fibroblasts displayed higher integrin β1 activation, revealed by the increased binding of the activation reporter 9EG7 anti-β1 mAb and of a soluble fibronectin fragment, as well as by enhanced talin-β1 association. AhR ?/? fibroblasts also showed increased fibronectin secretion and impaired directional migration. Notably, interfering Cbp expression in AhR ?/? fibroblasts reduced β1 integrin activation, improved cell migration and rescued wild-type cell morphology. Cbp over-expression in T-FGM AhR ?/? cells enhanced the formation of inhibitory Csk–Cbp complexes which in turn reduced c-Src p-Tyr⁴¹⁶ activation and focal adhesion kinase (FAK) phosphorylation at the c-Src-responsive residues p-Tyr⁵⁷⁶ and p-Tyr⁵⁷⁷. The c-Src target and migration-related protein Cav1 was also hypophosphorylated at p-Tyr¹⁴ in AhR ?/? cells, and such effect was rescued by down-modulating Cbp levels. Thus, AhR regulates fibroblast migration by modulating β1 integrin activation via Cbp-dependent, Src-mediated signaling.     

Lecithin/cholesterol acyltransferase modulates diet-induced hepatic deposition of triglycerides in mice

Lecithin/cholesterol acyltransferase (LCAT) is responsible for the esterification of the free cholesterol of plasma lipoproteins. Here, we investigated the involvement of LCAT in mechanisms associated with diet-induced hepatic triglyceride accumulation in mice. LCAT-deficient (LCAT^?/?) and control C57BL/6 mice were placed on a Western-type diet (17.3% protein, 48.5% carbohydrate, 21.2% fat, 0.2% cholesterol, 4.5 kcal/g) for 24 weeks, then histopathological and biochemical analyses were performed. We report that, in our experimental setup, male LCAT^?/? mice are characterized by increased diet-induced hepatic triglyceride deposition and impaired hepatic histology and architecture. Mechanistic analyses indicated that LCAT deficiency was associated with enhanced intestinal absorption of dietary triglycerides (3.6±0.5 mg/dl per minute for LCAT^?/? vs. 2.0±0.7 mg/dl per minute for C57BL/6 mice; P<.05), accelerated clearance of postprandial triglycerides and a reduced rate of hepatic very low density lipoprotein triglyceride secretion (9.8±1.1 mg/dl per minute for LCAT^?/? vs. 12.5±1.3 mg/dl per minute for C57BL/6 mice, P<.05). No statistical difference in the average daily food consumption between mouse strains was observed. Adenovirus-mediated gene transfer of LCAT in LCAT^?/? mice that were fed a Western-type diet for 12 weeks resulted in a significant reduction in hepatic triglyceride content (121.2±5.9 mg/g for control infected mice vs. 95.1±5.8 mg/g for mice infected with Ad-LCAT, P<.05) and a great improvement of hepatic histology and architecture. Our data extend the current knowledge on the functions of LCAT, indicating that LCAT activity is an important modulator of processes associated with diet-induced hepatic lipid deposition.