Effie C. Tsilibary’s research while affiliated with University of Minnesota Duluth and other places

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Publications (74)


A New Perspective in Utilizing MMP-9 as a Therapeutic Target for Alzheimer’s Disease and Type 2 Diabetes Mellitus
  • Literature Review

May 2018

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214 Reads

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31 Citations

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Effie C. Tsilibary

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Matrix metalloprotease 9 (MMP-9) is a 92 kDa type IV collagenase and a member of the family of endopeptidases. MMP-9 is involved in the degradation of extracellular matrix components, tissue remodeling, cellular receptor stripping, and processing of various signaling molecules. In the CNS, the effects of MMP-9 are quite complex, since it exerts beneficial effects including neurogenesis, angiogenesis, myelogenesis, axonal growth, and inhibition of apoptosis, or destructive effects including apoptosis, blood-brain barrier disorder, and demyelination. Likewise, in the periphery, physiological events, as the involvement of MMP-9 in angiogenesis, for instance in wound healing, can be turned into pathological, such as in tumor metastasis, depending on the state of the organism. Alzheimer's disease is a neurodegenerative disorder, characterized by amyloid accumulation and deposition in the brain. Amyloidogenesis, however, also occurs in diseases of the periphery, such as type II diabetes mellitus, where an analogous type of amyloid, is deposited in the pancreas. Interestingly, both diseases exhibit similar pathology and disease progression, with insulin resistance being a major common denominator. Hence, combinatorial strategies searching new or existing molecules to apply for therapeutic use for both diseases are gaining momentum. MMP-9 is extensively studied due to its association with a variety of physiological and pathological processes. Consequently, meticulous design could render MMP-9 into a potential therapeutic target for Alzheimer's disease and type 2 diabetes mellitus; two seemingly unrelated diseases.


Figure 1. FT-IR spectra of 100% β-TCP (A), BCP ((B) 13% HA-87% TCP, (C) 41% HA-59% TCP) and 100% HA (D). 
Table 1 . Specific surface area of HA, β-TCP and biphasic calcium phosphate powders.
Figure 2. X-ray diffraction patterns of samples 100% β-TCP (A), BCP ((B) 13% HA-87% β-TCP, (C) 41% HA-59% β-TCP) and 100% HA (D) refined by the Rietveld method. The red points are the experimental points, the continuous black lines correspond to the calculated diagrams, blue and red vertical bars (|) at the bottom indicate the position of the Bragg peaks for the β-TCP and HA phases, respectively. The continuous line at the bottom is the difference between the experimental and theoretical intensity values. Blue Miller index values correspond to TCP and the red ones correspond to HA. 
Figure 3. SEM photomicrographs of the 100% β-TCP (A,E), BCP ((B,F) 13% HA-87% β-TCP; (C,G) 41% HA-59% β-TCP) and 100% HA (D,H). (A-D) Low magnification, (E-H) high magnification. 
Figure 5. The effect of β-TCP and HA on MG-63 cell viability. Cells were treated with 15, 25, 50 and 100 µg/mL of each bone graft. Two control groups were used, control-maintained at 1% FBS and control + maintained at 10% FBS. The results are mean ± standard error (SE) of three independent experiments. 

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Synthesis of Hydroxyapatite, β-Tricalcium Phosphate and Biphasic Calcium Phosphate Particles to Act as Local Delivery Carriers of Curcumin: Loading, Release and In Vitro Studies
  • Article
  • Full-text available

April 2018

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4,498 Reads

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58 Citations

Materials

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Dimitra Diomatari

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The successful synthesis of hydroxyapatite (HA), β-Tricalcium phosphate (β-TCP) and two biphasic mixtures (BCPs) of the two was performed by means of wet precipitation. The resulting crystals were characterized and the BCP composition was analyzed and identified as 13% HA-87% TCP and 41% HA-59% TCP. All samples were treated with curcumin solutions, and the degree of curcumin loading and release was found to be proportional to the TCP content of the ceramic. No further cytotoxicity was observed upon MG-63 treatment with the curcumin-loaded ceramics. Finally, the alkaline phosphatase activity of the cells was found to increase with increasing content of TCP, which provides an encouraging proof of concept for the use of curcumin-loaded synthetic biomaterials in bone remodeling.

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Overexpression of matrix metalloproteinase-9 (MMP-9) rescues insulin-mediated impairment in the 5XFAD model of Alzheimer’s disease

April 2017

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841 Reads

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50 Citations

A hallmark of Alzheimer’s disease (AD) is the accumulation of oligomeric amyloid-β (Aβ) peptide, which may be primarily responsible for neuronal dysfunction. Insulin signaling provides a defense mechanism against oligomer-induced neuronal loss. We previously described the neuroprotective role of matrix metalloproteinase 9 (MMP-9) in decreasing the formation of Aβ oligomers. In the present study, we examined the role of MMP-9 on the insulin survival pathway in primary hippocampal cultures and hippocampal cell extracts from 3 month-old wild type, AD (5XFAD), MMP-9-overexpressing (TgMMP-9), and double transgenic mice (5XFAD/TgMMP-9). The data demonstrate that the insulin pathway was compromised in samples from 5XFAD mice, when compared to the wild type and TgMMP-9. This was due to enhanced phosphorylation of IRS1 at Serine 636 (pIRS1-Ser636), which renders IRS1 inactive and prevents insulin-mediated signaling. In 5XFAD/TgMMP-9 samples, the insulin survival pathway was rescued through enhanced activation by phosphorylation of IRS1 at Tyrosine 465 (pIRS1-Tyr465), downstream increased phosphorylation of Akt and GSK-3β, and decreased phosphorylation of JNK kinase. Oligomeric Aβ levels decreased and BDNF levels increased in 5XFAD/TgMMP-9 mice, compared to 5XFAD mice. Our findings indicate that overexpression of MMP-9 rescued insulin survival signaling in vitro and in early stages in the 5XFAD model of AD.


A Review on Platelet Activating Factor Inhibitors: Could a New Class of Potent Metal-Based Anti-Inflammatory Drugs Induce Anticancer Properties?

March 2017

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274 Reads

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50 Citations

In this minireview, we refer to recent results as far as the Platelet Activating Factor (PAF) inhibitors are concerned. At first, results of organic compounds (natural and synthetic ones and specific and nonspecific) as inhibitors of PAF are reported. Emphasis is given on recent results about a new class of the so-called metal-based inhibitors of PAF. A small library of 30 metal complexes has been thus created; their anti-inflammatory activity has been further evaluated owing to their inhibitory effect against PAF in washed rabbit platelets (WRPs). In addition, emphasis has also been placed on the identification of preliminary structure-activity relationships for the different classes of metal-based inhibitors.



The ability of apolipoprotein E fragments to promote intraneuronal accumulation of amyloid beta peptide 42 is both isoform and size-specific

August 2016

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356 Reads

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42 Citations

The apolipoprotein (apo) E4 isoform is the strongest risk factor for late-onset Alzheimer’s disease (AD). ApoE4 is more susceptible to proteolysis than apoE2 and apoE3 isoforms and carboxyl-terminal truncated apoE4 forms have been found in AD patients’ brain. We have previously shown that a specific apoE4 fragment, apoE4-165, promotes amyloid-peptide beta 42 (Aβ42) accumulation in human neuroblastoma SK-N-SH cells and increased intracellular reactive oxygen species formation, two events considered to occur early in AD pathogenesis. Here, we show that these effects are allele-dependent and absolutely require the apoE4 background. Furthermore, the exact length of the fragment is critical since longer or shorter length carboxyl-terminal truncated apoE4 forms do not elicit the same effects. Structural and thermodynamic analyses showed that apoE4-165 has a compact structure, in contrast to other carboxyl-terminal truncated apoE4 forms that are instead destabilized. Compared however to other allelic backgrounds, apoE4-165 is structurally distinct and less thermodynamically stable suggesting that the combination of a well-folded structure with structural plasticity is a unique characteristic of this fragment. Overall, our findings suggest that the ability of apoE fragments to promote Aβ42 intraneuronal accumulation is specific for both the apoE4 isoform and the particular structural and thermodynamic properties of the fragment.



High Glucose Impairs Insulin Signaling in the Glomerulus: An In Vitro and Ex Vivo Approach

July 2016

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244 Reads

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31 Citations

Objective: Chronic hyperglycaemia, as seen in type II diabetes, results in both morphological and functional impairments of podocytes in the kidney. We investigated the effects of high glucose (HG) on the insulin signaling pathway, focusing on cell survival and apoptotic markers, in immortalized human glomerular cells (HGEC; podocytes) and isolated glomeruli from healthy rats. Methods and findings: HGEC and isolated glomeruli were cultured for various time intervals under HG concentrations in the presence or absence of insulin. Our findings indicated that exposure of HGEC to HG led to downregulation of all insulin signaling markers tested (IR, p-IR, IRS-1, p-Akt, p-Fox01,03), as well as to increased sensitivity to apoptosis (as seen by increased PARP cleavage, Casp3 activation and DNA fragmentation). Short insulin pulse caused upregulation of insulin signaling markers (IR, p-IR, p-Akt, p-Fox01,03) in a greater extent in normoglycaemic cells compared to hyperglycaemic cells and for the case of p-Akt, in a PI3K-dependent manner. IRS-1 phosphorylation of HG-treated podocytes was negatively regulated, favoring serine versus tyrosine residues. Prolonged insulin treatment caused a significant decrease of IR levels, while alterations in glucose concentrations for various time intervals demonstrated changes of IR, p-IR and p-Akt levels, suggesting that the IR signaling pathway is regulated by glucose levels. Finally, HG exerted similar effects in isolated glomeruli. Conclusions: These results suggest that HG compromises the insulin signaling pathway in the glomerulus, promoting a proapoptotic environment, with a possible critical step for this malfunction lying at the level of IRS-1 phosphorylation; thus we herein demonstrate glomerular insulin signaling as another target for investigation for the prevention and/ or treatment of diabetic nephropathy.



Citations (62)


... Moreover, the coagulation factor GP1BB has been associated with increased inflammation in ischemic stroke [54]. Another link to inflammation in these data is provided by the reported upregulation of MMP-9, a matrix metalloproteinase with a role in the inflammatory response [55], in plasma-derived NDEVs [56]. Decreased levels of ADAM10 (α-secretase) found in AD-EVs may contribute to Aβ aggregation as ADAM10 cleaves APP into a neuroprotective sAPPα isoform (as discussed for let-7 miRNAs targeting ADAM10 in Sect. ...

Reference:

Shared and distinct changes in the molecular cargo of extracellular vesicles in different neurodegenerative diseases
A New Perspective in Utilizing MMP-9 as a Therapeutic Target for Alzheimer’s Disease and Type 2 Diabetes Mellitus
  • Citing Article
  • May 2018

... BGM (bone graft materials) is a complex of HA and TH that can modulate the release rate of rhBMP-2 and the cellular response, depending on the composition ratio of the two carriers [48,49]. Previous studies have suggested that the release kinetics of HA + β-TCP are attributable to their particle sizes. ...

Synthesis of Hydroxyapatite, β-Tricalcium Phosphate and Biphasic Calcium Phosphate Particles to Act as Local Delivery Carriers of Curcumin: Loading, Release and In Vitro Studies

Materials

... Targeting PTAFR may have therapeutic potential for atherosclerosis. In fact, for years, researchers have speculated that dietary PTAFR antagonists might influence the inflammatory signaling it mediates [35,36]. For example, in the Mediterranean diet, researchers believe these PTAFR-antagonizing compounds are highly concentrated, potentially preventing atherosclerotic cardiovascular diseases and other inflammatory conditions [36,37]. ...

A Review on Platelet Activating Factor Inhibitors: Could a New Class of Potent Metal-Based Anti-Inflammatory Drugs Induce Anticancer Properties?

... In addition, Lee et al. 22 demonstrated that BDNF stem cell transplantation increased neuronal survival by approximately threefold at two and eight weeks after ICH, effectively promoting neurological recovery.Tropomyosin receptor kinase B (TrkB) is a high-affinity receptor for BDNF. When a ligand binds to the cell surface, TrkB dimerizes, selectively activating phosphoinositide 3-kinase (PI3K) and promoting neurogenesis, gliogenesis, neurite growth, and enhanced neuronal survival 23 . Furthermore, the BDNF/TrkB signaling pathway is critical not only for the treatment of ICH but also represents a significant therapeutic target in various neurodegenerative diseases such as Alzheimer's disease 24 . ...

Overexpression of matrix metalloproteinase-9 (MMP-9) rescues insulin-mediated impairment in the 5XFAD model of Alzheimer’s disease

... The inclusion of multiple time points allows for a dynamic assessment of these metabolic changes over the course of 8 weeks. The current data show that STZ-induced T1DM in rats resulted in significantly higher glucose and fructosamine but lower insulin concentrations in STZ rats compared to controls, which is in agreement with previous data [40]. Kaikini et al. [41] also showed a consistently elevated level of glucose in STZ rats throughout the entire 4-week duration of the experiment. ...

Diabetes - experimental models

Nephrology Dialysis Transplantation

... The three major isoforms of human apoE differ at residues 112 and 158: C112 and C158 in apoE2, C112 and R158 apoE3, and R112 and R158 in apoE4. These residues confer subtle dynamic differences in NTD stability, which increases in the order apoE4 < apoE3 < apoE2 [39]; NTD-CTD interactions, which are weakest in apoE4 [25]; and susceptibility to proteolytic fragmentation, which is highest in apoE4 and possibly contributes to Aβ pathology [40][41][42]. ApoE4 circulates at lower levels compared to apoE2 or apoE3 in plasma and cerebrospinal fluid, and apoE post-translational modifications [43] and lipidation are also isoform-specific [20]. These differences impact apoE interactions with lipoprotein receptors, lipids, proteoglycans, and Aβ, with major implications for AD and cardiovascular disease [19,20,44]. ...

The ability of apolipoprotein E fragments to promote intraneuronal accumulation of amyloid beta peptide 42 is both isoform and size-specific

... Moreover, data have shown that the PI3K/aKt pathway directly regulates the cytoskeletal structure of podocytes [18]. Hyperglycemia can lead to the suppression of PI3K/aKt pathway activity [19], and failure to phosphorylate akt in podocytes from db/db mice with early dKd has been shown to result in cell death [20]. Intriguingly, studies have found that Sirt6 can regulate the PI3K/aKt pathway in cancer [21,22]. ...

High Glucose Impairs Insulin Signaling in the Glomerulus: An In Vitro and Ex Vivo Approach

... The Gly-X-Y sequence is punctuated with numerous interruptions, ranging from 1 to 24 amino acids in length. These interruptions are thought to produce sites of flexibility in the triple helical domain, and they have also been proposed to act as binding sites for other basement membrane components (Charonis and Tsilibary 1990). Each type IV ot chain has two noncollagenous domains, one at the NH2 terminus, which forms part of the 7S domain, and one at the COOH-terminus, the NC1 domain. ...

Assembly of Basement Membrane Proteins
  • Citing Chapter
  • December 1990

... Angiogenesis plays an important part in feeding newly formed cells during wound healing and in cleaning debris during tissue formation conglomeration (9). Vit C (ascorbic acid) enhances the functions of neutrophils, in addition to collagen production (10)(11)(12). ...

Effects of Nonenzymatic Glycation on Molecular Interactions of Basement Membrane Molecules
  • Citing Chapter
  • January 1992

... Anastellin decreases the activation state of α5β1 integrin on endothelial cells (Ambesi and McKeown-Longo, 2014). Arresten interacts with α3β1/αvβ3 and α1β1/α2β1 integrins at the surface of HPV-16-immortalized proximal tubular epithelial cells and mesangial cells respectively, whereas tumstatin binds to immortalized glomerular epithelial cells through α3β1 and α2β1 integrins (Aggeli et al., 2009). The above integrins are also involved in the effects of matricryptins on other cell types. ...

Selective binding of integrins from different renal cell types to the NC1 domain of alpha 3 and alpha 1 chains of type IV collagen
  • Citing Article
  • January 2009

Journal of Nephrology