Homozygosity mapping in consanguineous families reveals extreme heterogeneity of non-syndromic autosomal recessive mental retardation and identifies 8 novel gene loci

Autosomal recessive gene defects are arguably the most important, but least studied genetic causes of severe cognitive dysfunction. Homozygosity mapping in 78 consanguineous Iranian families with nonsyndromic autosomal recessive mental retardation (NS-ARMR) has enabled us to determine the chromosomal localization of at least 8 novel gene loci for this condition. Our data suggest that in the Iranian population NS-ARMR is very heterogeneous, and they argue against the existence of frequent gene defects that account for more than a few percent of the cases. Mohammad Mahdi Motazacker and Masoud Garshasbi have contributed equally to this work.     

Role of aromatic interactions in amyloid formation by peptides derived from human Amylin

Numerous polypeptides and proteins form amyloid deposits in vivo or in vitro. The mechanism of amyloid formation is not well-understood particularly in the case where unstructured polypeptides assemble to form amyloid. Aromatic-aromatic interactions are known to be important in globular proteins, and the possibility that they might play a key role in amyloid formation has been raised. The results of Ala-scanning experiments on short polypeptides derived from Amylin have suggested that aromatic interactions could be particularly important for this system. Here, we examine a set of Amylin-derived polypeptides in which the single aromatic residue has been substituted with a Leu and Ala. A peptide corresponding to residues 21-29 with a Phe-23 to Leu substitution, a free N terminus, and amidated C terminus readily forms amyloid. Shorter peptides derived from the putative minimal amyloid-forming segment of Amylin, residues 22-27, also form amyloid when Phe-23 is replaced by Leu. Amyloid formation is more facile when the N terminus is deprotonated and the peptide is uncharged. Substitution of the Phe with Ala results in a peptide that is noticeably less prone to form amyloid. A peptide corresponding to residues 10-19 of human Amylin with blocked termini and the sole aromatic residue, Phe-15, substituted by Leu readily forms amyloid. A Phe-15 to Ala substitution reduces significantly the ability to form amyloid. These results indicate that an aromatic residue is not required for amyloid formation in these systems and indicates that other factors such as size, beta-sheet propensity, and hydrophobicity of the side chain in question are also important.     

Electric and magnetic fields in cryopreservation: A response

Our recent studies showed that a programmed freezer with a magnetic field (CAS freezer) is helpful in the survival of periodontal ligament (PDL) cells after cryopreservation. The theory is that a magnetic field can prevent the cluster from growing by causing it to vibrate. In this letter, we commented in detail on the influence of a magnetic field during cryopreservation.     

R-carrying genotypes of serum paraoxonase (PON1) 192 polymorphism and higher activity ratio are related to susceptibility against ischemic stroke

The polymorphic gene of serum paraoxonase (PON1) and its activity involved in atherosclerosis. The purpose of the study was to analyze PON1 192 Q/R polymorphism and the enzyme activities in ischemic stroke. The polymorphism as the most common polymorphism in PON1 gene coding sequence is associated with variation in the enzyme activity and vascular disease. The study included 85 stroke patients and 71 control subjects. PON1 192 polymorphism was genotyped using PCR protocol. Paraoxonase activity (Para) and arylesterase activity (Aryl) were determined spectrophotometrically using paraoxon and phenylacetate as the substrates. The QR and RR genotypes were more frequent in stroke population compared to controls, resulting in a higher frequency of the R allele in patients (0.24 vs 0.18, OR?=?1.41). Patients had significantly higher Para/Aryl ratio than that of controls (P?=?0.016). In stroke patients, Para/Aryl and Para/HDL ratios increased with this order: QQ?<?QR?<?RR. Hypertension significantly increased the risk of ischemic stroke by 15-fold among R-containing people, while this was significantly increased 4-fold for QQ homozygotes. Smoking increased the risk of having ischemic stroke in both QQ homozygote and QR?+?RR group (OR?=?2.84 and OR?=?2.33, respectively). In conclusion, these data highlight the importance of PON1 192 R allele and high Para/Aryl ratio in susceptibility to ischemic stroke in the population. The presence of the 192 R allele potentiates the risk of stroke especially in hypertensive people. Decreased Aryl and increased Para/Aryl, Para/HDL and Aryl/HDL ratios may be markers indicated the increased susceptibility to ischemic stroke in the population.     

Amyloid formation by pro-islet amyloid polypeptide processing intermediates: examination of the role of protein heparan sulfate interactions and implications for islet amyloid formation in type 2 diabetes

Amyloid formation has been implicated in a wide range of human diseases including Alzheimer's disease, Parkinson's disease, and type 2 diabetes. In type 2 diabetes, islet amyloid polypeptide (IAPP, also known as amylin) forms cytotoxic amyloid deposits in the pancreas, and these are believed to contribute to the pathology of the disease. The mechanism of islet amyloid formation is not understood; however, recent proposals have invoked a role for incompletely processed proIAPP. In this model, incompletely processed proIAPP containing the N-terminal pro region is excreted and binds to heparan sulfate proteoglycans (HSPGs) of the basement membrane thereby establishing a high local concentration which can act as a seed for amyloid formation. Here we report biophysical proof-of-principle experiments designed to test the viability of this model. The model predicts that interactions with HSPGs should accelerate amyloid formation by the proIAPP processing intermediate, and this is indeed what is observed. Interaction with heparan sulfate leads to the rapid formation of an intermediate state with partial helical content which then converts, on a slower time scale, to amyloid fibrils. TEM shows that fibrils formed by the proIAPP processing intermediate in the presence and in the absence of heparan sulfate have the classic features of amyloid. Fibrils formed by the proIAPP processing intermediate are competent to seed amyloid formation by mature IAPP. The seeding experiments support a second major premise of the model, namely, that fibrils formed by the processing intermediate are capable of seeding amyloid formation by the mature peptide.     

Aromatic interactions are not required for amyloid fibril formation by islet amyloid polypeptide but do influence the rate of fibril formation and fibril morphology

Amyloid formation has been implicated in a wide range of human diseases, and a diverse set of proteins is involved. There is considerable interest in elucidating the interactions which lead to amyloid formation and which contribute to amyloid fibril stability. Recent attention has been focused upon the potential role of aromatic-aromatic and aromatic-hydrophobic interactions in amyloid formation by short to midsized polypeptides. Here we examine whether aromatic residues are necessary for amyloid formation by islet amyloid polypeptide (IAPP). IAPP is responsible for the formation of islet amyloid in type II diabetes which is thought to play a role in the pathology of the disease. IAPP is 37 residues in length and contains three aromatic residues, Phe-15, Phe-23, and Tyr-37. Structural models of IAPP amyloid fibrils postulate that Tyr-37 is near one of the phenylalanine residues, and it is known that Tyr-37 interacts with one of the phenylalanines during fibrillization; however, it is not known if aromatic-aromatic or aromatic-hydrophobic interactions are absolutely required for amyloid formation. An F15L/F23L/Y37L triple mutant (IAPP-3XL) was prepared, and its ability to form amyloid was tested. CD, thioflavin binding assays, AFM, and TEM measurements all show that the triple leucine mutant readily forms amyloid fibrils. The substitutions do, however, decrease the rate of fibril formation and alter the tendency of fibrils to aggregate. Thus, while aromatic residues are not an absolute requirement for amyloid formation by IAPP, they do play a role in the fibril assembly process.     

Effects of Zinc Oxide Nanoparticles on Performance,Egg Quality,Tissue Zinc Content,Bone Parameters,and Antioxidative Status in Laying Hens

The objective of this study was to observe the effects of dietary supplementation with zinc oxide nanoparticles (ZnO-NPs) on performance, egg quality, tissue Zn content, bone parameters, superoxide dismutase activity (SOD), and egg malondialdehyde (MDA) content in laying hens. A total of 288 laying hens at 64 weeks of age were randomly assigned to 4 treatments, 6 replicates, with 12 birds each. Experimental diets included the based diet (without Zn supplementation), and basal diet supplemented with 40, 80, and 120 mg Zn/kg from ZnO-NPs. Feed intake and egg mass were significantly higher in the 40 and 80 ZnO-NPs groups than the other groups. The birds in the 80 ZnO-NPs group had significantly higher egg product than the 120 ZnO-NPs and control groups. Egg shell thickness and shell strength significantly increased in the 40 and 80 ZnO-NPs groups. Moreover, Haugh unit significantly improved in the groups supplemented with ZnO-NPs, compared to the control group. Bone-breaking strength was significantly greater in the 80 ZnO-NPs group than the 120 ZnO-NPs and control groups. Also, ash weight was significantly greater in the 40 and 80 ZnO-NPs groups than the control group. There were significant differences among the groups in the Zn content in plasma, tibia, liver, pancreas, and egg. Relative to the control group, ZnO-NPs supplementation significantly increased the activities of SOD in the liver, pancreas, and plasma. The MDA content in egg was significantly reduced in the groups supplemented with ZnO-NPs. In conclusion, this study demonstrates that ZnO-NPs as dietary supplementation can improve the performance of laying hens, and levels of 40 to 80 ZnO-NPs are the optimal concentrations.

     

The role of His-18 in amyloid formation by human islet amyloid polypeptide

The 37-residue islet amyloid polypeptide (IAPP) is the major protein component of the amyloid deposits found in type-II diabetes. IAPP is stored in a relatively low pH environment in the pancreatic secretory granules prior to its release to the extracellular environment. Human IAPP contains a single histidine at position 18. Aggregation of IAPP is considerably faster at a lower pH (4.0 +/- 0.3) than at high pH (8.8 +/- 0.3), as judged by turbidity and thioflavine-T fluorescence studies. The rate of aggregation at low pH increases drastically in the presence of salt. CD experiments show that the conversion of largely unstructured monomers to beta-sheet-rich structures is faster at high pH. TEM studies show that fibrils are formed at both pH values but are more prevalent at pH 8.8 (+/-0.3). Both the free N terminus of IAPP and His-18 will titrate over the pH range studied. An N-terminal acetylated fragment consisting of residues 8-37 of human IAPP was also studied to isolate contributions from the protonation of His-18. Previous studies have shown that this fragment forms protofibrils that are very similar to those formed by intact IAPP. The effects of varying the protonation state of His-18 in the 8-37 analogue indicate that the rate of aggregation and fibril formation is noticeably faster when His-18 is deprotonated, similar to the wild type. However, the pH-dependent effects are larger for full-length IAPP than for the disulfide-truncated, acetylated analogue. TEM studies indicate differences in the morphology of the deposits formed at high and low pH. These results are discussed in light of recent structural models of IAPP fibrils.