Amyloid fibrils formed by selective N-, C-terminal sequences of mouse apolipoprotein A-II

In mice, amyloidogenic type C apolipoprotein A-II (apoA-II) forms amyloid fibrils in age-associated amyloidosis. To understand the mechanism of amyloid fibril formation by apoA-II, we examined the polymerization of synthetic partial peptides of apoA-II in vitro. None of the partial apoA-II peptides polymerized into amyloid fibrils when tested as a single species mixture. We found a unique mechanism in which N- and C-terminal peptides associated into amyloid fibrils in a 1:1 ratio at pH 2.5. The 11-residue amino acid sequence (6-16), which is a common sequence of type B apoA-II and type C apoA-II proteins in amyloidosis-resistant mice and amyloidosis-susceptible mice, respectively, was critical for polymerization into amyloid fibrils. The 18-residue-long amino acid sequence (48-65) is also necessary for nucleation, but not for the extension phase. These findings suggest that there may be different mechanisms underlying the nucleation and extension phases of apoA-II amyloid fibril formation. We also found that amino acid substitutions between type B apoA-II (Pro5, Val38) and type C apoA-II (Gln5, Ala38) did not affect either phase. The strategy of using synthetic partial peptides of amyloidogenic proteins in vitro is a useful system for understanding amyloid fibril formation and for the development of novel therapies.ArticleBIOCHIMICA ET BIOPHYSICA ACTA-PROTEINS AND PROTEOMICS. 1794(10):1517-1529 (2009)journal articl

Hepatitis B Virus X Protein Modulates Apoptosis in NRK-52E Cells and Activates Fas/FasL Through the MLK3-MKK7-JNK3 Signaling Pathway

Background/Aims: The hepatitis B virus X protein (HBx) contributes to HBV-induced injury of renal tubular cells and induces apoptosis via Fas/FasL up-regulation. However, the mechanism of Fas/FasL activation is unknown. Recent studies indicated that HBx induction of apoptosis in hepatic cells depends on activating the MLK3-MKK7-JNKs signaling module, which then up-regulates FasL expression. In this study, we used NRK-52E cells transfected an HBx expression vector to examine the role of the MLK3-MKK7-JNKs signaling pathway on HBx-induced renal tubular cell injury. Methods: NRK-52E cells were transfected with pc-DNA3.1(+)-HBx to establish an HBx over-expression model, and with pc-DNA3.1(+)-HBx and pSilencer3.1-shHBx to establish an HBx low expression model. One control group was not transfected and another control group was transfected with an empty plasmid. Cell proliferation was determined by the formazan dye method (Cell Counting Kit-8) and apoptosis was measured by flow cytometry and fluorescence microscopy. Western blotting was used to measure the expression of Fas, FasL, and MLK3-MKK7-JNKs signaling pathway-related proteins. The activity of caspase-8 was measured by spectrophotometry. Results: Transfection of NRK-52E cells with pc-DNA3.1(+)-HBx inhibited cell proliferation and increased apoptosis and caspase-8 activity. The expression of Fas, FasL, and MLK3-MKK7-JNKs signaling pathway-related proteins were also greater in the pc-DNA3.1(+)-HBx group, but lower in RNAi group. Furthermore, the activity of MLK3-MKK7-JNKs signaling pathway, expression of Fas/FasL, and apoptosis were significantly lower in the pc-DNA3.1(+)-HBx group when treated with K252a, a known inhibitor of MLK3. Conclusions: Our results show that HBx induces apoptosis in NRK-52E cells and activates Fas/FasL via the MLK3-MKK7-JNK3-c-Jun signaling pathway

Hepatitis B Virus X Protein Reduces Podocyte Adhesion via Downregulation of α3β1 Integrin

Background/Aims: Hepatitis B virus (HBV)-associated glomerulonephritis (HBV-GN) is characterized by a reduced number of podocytes due to apoptosis and shedding from the basement membrane. However, the pathological mechanism of HBV-GN is unclear. We previously showed that hepatitis B virus X protein (HBx) promotes apoptosis in tubular epithelial cells. In this study, we transfected podocytes with HBx and examined the effects on adhesion and apoptosis of these cells. Methods: Podocytes were transfected with pc-DNA3.1 (+)-HBx. One control group was not transfected and another control group was transfected with empty plasmids. Podocyte adhesion was assessed by a fluorescence assay, apoptosis was measured by flow cytometry and fluorescence microscopy, and expression of α3β1 integrin was determined by western blotting and the reverse transcription polymerase chain reaction (RT-PCR). Activity of caspase-8 was measured by a spectrophotometric assay. Results: Relative to controls, podocytes with pc-DNA3.1(+)-HBx had reduced cell adhesion, increased apoptosis, reduced expression of α3β1 integrin, and increased caspase-8 activity. β1 integrin blockage reduced podocyte adhesion, but increased apoptosis and caspase-8 activity. Treatment of transfected podocytes with a caspase-8 inhibitor (Z-IETD-FMK) had no effect on the HBx-mediated integrin downregulation and reduced podocyte adhesion, suggesting that α3β1 integrin downregulaton is sufficient to alter cell adhesion. Conclusions: Our in vitro results indicate that HBx reduced podocyte adhesion and expression of α3β1 integrin, and increased apoptosis. Moreover, HBx-mediated downregulation of α3β1 integrin expression is sufficient to reduce podocyte adhesion. HBx-induced apoptosis of podocytes may contribute to HBV-GN

CTLD1 on the prognosis of idiopathic membranous nephropathy: a single center study

Objective To explore the clinical significance of serum C-type lectin domain 1（CTLD1） for prognosis of patients with idiopathic membranous nephropathy（IMN）. Methods A total of 116 patients with IMN diagnosed in Shengjing Hospital from September 2016 to December 2019 were selected as the case group, and healthy volunteers with age and gender matching in the physical examination center during the same period were selected as the health control group. Clinical data of patients in case group were collected and followed up for ≥ 2 years to record treatment and outcome. The expression level of PLAZR antigen and CTLD1 antigen epitope were detected by ELISA. The differences of clinical indexes between CTLD1 positive group and negative group were compared, and the prognostic influencing factors of IMN patients were analyzed. b>Results There was a statistical difference in CTLD1 expression level between health control group and case group（P<0.01）. The blood C3 level（Z=2.402, P=0.016） and anti-PLA2R antibody level（Z=2.266, P=0.023） in CTLD1 positive group were statistically higher than those in CTLD1 negative group. CTLD1 was positively correlated with blood C3（r=0.239, P=0.012） and anti-PLA2R antibody（r=0.233, P=0.016）, respectively. Cox regression analysis showed that high CTLD1 level was an unfavorable factor for disease remission （HR=0.734, P<0.05）, and positive CTLD1 predicted a poor prognosis for IMN patients（HR=0.628, P<0.05）. Conclusion CTLD1 epitope expression level is related to the prognosis of IMN patients, with a assessment and significance for outcome of IMN patients

Mouse Senile Amyloid Fibrils Deposited in Skeletal Muscle Exhibit Amyloidosis-Enhancing Activity

Amyloidosis describes a group of protein folding diseases in which amyloid proteins are abnormally deposited in organs and/or tissues as fine fibrils. Mouse senile amyloidosis is a disorder in which apolipoprotein A-II (apoA-II) deposits as amyloid fibrils (AApoAII) and can be transmitted from one animal to another both by the feces and milk excreted by mice with amyloidosis. Thus, mouse AApoAII amyloidosis has been demonstrated to be a ‘‘transmissible disease’’. In this study, to further characterize the transmissibility of amyloidosis, AApoAII amyloid fibrils were injected into transgenic Apoa2 c Tg +/2 and normal R1.P1-Apoa2 c mice to induce AApoAII systemic amyloidosis. Two months later, AApoAII amyloid deposits were found in the skeletal muscles of amyloid-affected mice, primarily in the blood vessels and in the interstitial tissues surrounding muscle fibers. When amyloid fibrils extracted from the skeletal muscles were subjected to Western blot analysis, apoA-II was detected. Amyloid fibril fractions isolated from the muscles not only demonstrated the structure of amyloid fibrils but could also induce amyloidosis in young mice depending on its fibril conformation. These findings present a possible pathogenesis of amyloidosis: transmission of amyloid fibril conformation through muscle, and shed new light on the etiology involved in amyloid disorders

The Toxicity Mechanisms of Action of Aβ25–35 in Isolated Rat Cardiac Myocytes

β-Amyloid (Aβ) is deposited in neurons and vascular cells of the brain and is characterized as a pathologic feature of Alzheimer’s disease (AD). Recently studies have reported that there is an association between cardiovascular risk factors and AD, however the mechanism of this association is still uncertain. In this study we observed Aβ had an effect on cardiovascular cells. We represent as a major discovery that Aβ25–35 had toxicity on isolated rat cardiac myocytes by impacting the cytoskeleton assembly and causing ER stress, ultimately contributing to the apoptosis of the myocytes. Importantly, the activation of ER stress and subsequent cellular dysfunction and apoptosis by Aβ25–35 was regulated by the MAPK pathway, which could be prevented by inhibition of p38 via pharmacological inhibitors. It was noteworthy that Aβ25–35 played a critical role in cardiac myocytes, suggesting that Alzheimer’s disease (AD) had a relation with the heart and understanding of these associations in future will help search for effective treatment strategies