In Vivo, Non Invasive Evaluation of the Self Assembly of Unfolding Proteins in Transparent Lens Cells

Single-photon emission computed tomography (SPECT) photons as a medical imaging technique detects the radiation emitted by radioisotopes injected into the body to provide in vivo measurements of regional tissue function. From its introduction in the cardiologic clinical field, nuclear imaging has classically represented the reference technique for the non-invasive evaluation of myocardial perfusion, becoming the most frequently performed imaging modality for the functional assessment of patients with ischaemic heart disease.

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Pharmacophore hybridisation and nanoscale assembly to discover self-delivering lysosomotropic new-chemical entities for cancer therapy

Nature Communications ◽

10.1038/s41467-020-18399-4 ◽

2020 ◽

Vol 11 (1) ◽

Author(s):

Zhao Ma ◽

Jin Li ◽

Kai Lin ◽

Mythili Ramachandran ◽

Dalin Zhang ◽

...

Keyword(s):

Clinical Trials ◽

Cancer Therapy ◽

Self Assembly ◽

The Self ◽

Single Drug ◽

Drug Nanoparticles ◽

Lysosomal Dysfunction ◽

New Chemical Entities ◽

Autophagy Inhibition

Abstract Integration of the unique advantages of the fields of drug discovery and drug delivery is invaluable for the advancement of drug development. Here we propose a self-delivering one-component new-chemical-entity nanomedicine (ONN) strategy to improve cancer therapy through incorporation of the self-assembly principle into drug design. A lysosomotropic detergent (MSDH) and an autophagy inhibitor (Lys05) are hybridised to develop bisaminoquinoline derivatives that can intrinsically form nanoassemblies. The selected BAQ12 and BAQ13 ONNs are highly effective in inducing lysosomal disruption, lysosomal dysfunction and autophagy blockade and exhibit 30-fold higher antiproliferative activity than hydroxychloroquine used in clinical trials. These single-drug nanoparticles demonstrate excellent pharmacokinetic and toxicological profiles and dramatic antitumour efficacy in vivo. In addition, they are able to encapsulate and deliver additional drugs to tumour sites and are thus promising agents for autophagy inhibition-based combination therapy. Given their transdisciplinary advantages, these BAQ ONNs have enormous potential to improve cancer therapy.

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A single-step multi-level supramolecular system for cancer sonotheranostics

Nanoscale Horizons ◽

10.1039/c8nh00276b ◽

2019 ◽

Vol 4 (1) ◽

pp. 190-195 ◽

Cited By ~ 26

Author(s):

Huirong Lin ◽

Shuang Li ◽

Junqing Wang ◽

Chengchao Chu ◽

Yang Zhang ◽

...

Keyword(s):

Self Assembly ◽

Single Step ◽

Supramolecular System ◽

Therapeutic Effects ◽

Invasive Approach ◽

Non Invasive ◽

Ionic Crosslinking ◽

Critical Issues ◽

Multi Level

A multi-level supramolecular system produced by single-step Fe3+-mediated ionic crosslinking self-assembly can overcome the critical issues of current sonodynamic therapy (SDT) and address the need to monitor therapeutic effects in vivo with a non-invasive approach.

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Construction and Characterizations of Antibacterial Surfaces Based on Self-Assembled Monolayer of Antimicrobial Peptides (Pac-525) Derivatives on Gold

Coatings ◽

10.3390/coatings11091014 ◽

2021 ◽

Vol 11 (9) ◽

pp. 1014

Author(s):

Zijiao Zhang ◽

Ni Kou ◽

Weilong Ye ◽

Shuo Wang ◽

Jiaju Lu ◽

...

Keyword(s):

Antimicrobial Peptides ◽

Self Assembly ◽

The Self ◽

Self Assembled Monolayer ◽

E Coli ◽

Antimicrobial Efficiency ◽

Gold Substrates ◽

Self Assembled ◽

Antibacterial Surfaces

Background: Infection that is related to implanted biomaterials is a serious issue in the clinic. Antimicrobial peptides (AMPs) have been considered as an ideal alternative to traditional antibiotic drugs, for the treatment of infections, while some problems, such as aggregation and protein hydrolysis, are still the dominant concerns that compromise their antimicrobial efficiency in vivo. Methods: In this study, antimicrobial peptides underwent self-assembly on gold substrates, forming good antibacterial surfaces, with stable antibacterial behavior. The antimicrobial ability of AMPs grafted on the surfaces, with or without glycine spaces or a primer layer, was evaluated. Results: Specifically, three Pac-525 derivatives, namely, Ac-CGn-KWRRWVRWI-NH2 (n = 0, 2, or 6) were covalently grafted onto gold substrates via the self-assembling process for inhibiting the growth of Staphylococcus aureus (S. aureus) and Escherichia coli (E. coli). Furthermore, the alkanethiols HS(CH)10SH were firstly self-assembled into monolayers, as a primer layer (SAM-SH) for the secondary self-assembly of Pac-525 derivatives, to effectively enhance the bactericidal performance of the grafted AMPs. The -(CH)10-S-S-G6Pac derivative was highly effective against S. aureus and E. coli, and reduced the viable amount of E. coli and S. aureus to 0.4% and 33.2%, respectively, after 24 h of contact. In addition, the immobilized AMPs showed good biocompatibility, promoting bone marrow stem cell proliferation. Conclusion: the self-assembled monolayers of the Pac-525 derivatives have great potential as a novel therapeutic method for the treatment of implanted biomaterial infections.

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Human Organ-Specific 3D Cancer Models Produced by the Stromal Self-Assembly Method of Tissue Engineering for the Study of Solid Tumors

BioMed Research International ◽

10.1155/2020/6051210 ◽

2020 ◽

Vol 2020 ◽

pp. 1-23 ◽

Cited By ~ 1

Author(s):

Vincent Roy ◽

Brice Magne ◽

Maude Vaillancourt-Audet ◽

Mathieu Blais ◽

Stéphane Chabaud ◽

...

Keyword(s):

Tissue Engineering ◽

Tumor Microenvironment ◽

Self Assembly ◽

The Self ◽

Human Organ ◽

Assembly Method ◽

Cancer Models ◽

Organ Specific

Cancer research has considerably progressed with the improvement of in vitro study models, helping to understand the key role of the tumor microenvironment in cancer development and progression. Over the last few years, complex 3D human cell culture systems have gained much popularity over in vivo models, as they accurately mimic the tumor microenvironment and allow high-throughput drug screening. Of particular interest, in vitrohuman 3D tissue constructs, produced by the self-assembly method of tissue engineering, have been successfully used to model the tumor microenvironment and now represent a very promising approach to further develop diverse cancer models. In this review, we describe the importance of the tumor microenvironment and present the existing in vitro cancer models generated through the self-assembly method of tissue engineering. Lastly, we highlight the relevance of this approach to mimic various and complex tumors, including basal cell carcinoma, cutaneous neurofibroma, skin melanoma, bladder cancer, and uveal melanoma.

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The Origin of the Eukaryotic Cell Based on Conservation of Existing Interfaces

Artificial Life ◽

10.1162/artl.2006.12.4.513 ◽

2006 ◽

Vol 12 (4) ◽

pp. 513-523 ◽

Cited By ~ 8

Author(s):

Albert D. G. de Roos

Keyword(s):

Plasma Membrane ◽

Protein Interactions ◽

Self Assembly ◽

Evolutionary Model ◽

Lipid Vesicles ◽

Eukaryotic Cell ◽

The Self ◽

Lipid Protein Interactions

Current theories about the origin of the eukaryotic cell all assume that during evolution a prokaryotic cell acquired a nucleus. Here, it is shown that a scenario in which the nucleus acquired a plasma membrane is inherently less complex because existing interfaces remain intact during evolution. Using this scenario, the evolution to the first eukaryotic cell can be modeled in three steps, based on the self-assembly of cellular membranes by lipid-protein interactions. First, the inclusion of chromosomes in a nuclear membrane is mediated by interactions between laminar proteins and lipid vesicles. Second, the formation of a primitive endoplasmic reticulum, or exomembrane, is induced by the expression of intrinsic membrane proteins. Third, a plasma membrane is formed by fusion of exomembrane vesicles on the cytoskeletal protein scaffold. All three self-assembly processes occur both in vivo and in vitro. This new model provides a gradual Darwinistic evolutionary model of the origins of the eukaryotic cell and suggests an inherent ability of an ancestral, primitive genome to induce its own inclusion in a membrane.

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Yeast proteins associated with microtubules in vitro and in vivo.

Molecular Biology of the Cell ◽

10.1091/mbc.3.1.29 ◽

1992 ◽

Vol 3 (1) ◽

pp. 29-47 ◽

Cited By ~ 57

Author(s):

G Barnes ◽

K A Louie ◽

D Botstein

Keyword(s):

Self Assembly ◽

Synthetic Peptides ◽

Immunofluorescence Microscopy ◽

The Self ◽

Microtubule Associated Proteins ◽

Amino Terminal ◽

Novel Proteins ◽

Associated Proteins

Conditions were established for the self-assembly of milligram amounts of purified Saccharomyces cerevisiae tubulin. Microtubules assembled with pure yeast tubulin were not stabilized by taxol; hybrid microtubules containing substoichiometric amounts of bovine tubulin were stabilized. Yeast microtubule-associated proteins (MAPs) were identified on affinity matrices made from hybrid and all-bovine microtubules. About 25 yeast MAPs were isolated. The amino-terminal sequences of several of these were determined: three were known metabolic enzymes, two were GTP-binding proteins (including the product of the SAR1 gene), and three were novel proteins not found in sequence databases. Affinity-purified antisera were generated against synthetic peptides corresponding to two of the apparently novel proteins (38 and 50 kDa). Immunofluorescence microscopy showed that both these proteins colocalize with intra- and extranuclear microtubules in vivo.

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Acidity-responsive shell-sheddable camptothecin-based nanofibers for carrier-free cancer drug delivery

Nanoscale ◽

10.1039/c9nr03872h ◽

2019 ◽

Vol 11 (34) ◽

pp. 15907-15916 ◽

Cited By ~ 10

Author(s):

Zhuha Zhou ◽

Ying Piao ◽

Lingqiao Hao ◽

Guanyu Wang ◽

Zhuxian Zhou ◽

...

Keyword(s):

Self Assembly ◽

Surface Coating ◽

Tumor Tissue ◽

The Self ◽

Cancer Drug ◽

Ph Responsive ◽

Carrier Free ◽

Cancer Drug Delivery

pH-responsive nanofibers are obtained by the self-assembly of the camptothecin prodrug and surface-coating, which can efficiently enter cancer cells in vitro and penetrate deep into tumor tissue in vivo.

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