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8. Internal and external validation of an ESTRO delineation guideline – dependent automated segmentation tool for loco-regional radiation therapy of early breast cancer

Author

Eldesoky, Ahmed R., Yates, Esben S., Nyeng, Tine B., Thomsen, Mette S., Nielsen, Hanne M., Poortmans, Philip, Kirkove, Carine, Krause, Mechthild, Kamby, Claus, Mjaaland, Ingvil, Blix, Egil S., Jensen, Ingelise, Berg, Martin, Lorenzen, Ebbe L., Taheri-Kadkhoda, Zahra, and Offersen, Birgitte V.

Published
2016
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11. Encapsulation into hyaluronic acid-based nanogels improves the selectivity index of the snake cathelicidin Ab-Cath

Author

van Gent, Miriam E., Kłodzińska, Sylvia N., Severin, Maureen, Ali, Muhanad, van Doodewaerd, Bjorn R., Bos, Erik, Koning, Roman I., Drijfhout, Jan Wouter, Nielsen, Hanne M., Nibbering, Peter H., van Gent, Miriam E., Kłodzińska, Sylvia N., Severin, Maureen, Ali, Muhanad, van Doodewaerd, Bjorn R., Bos, Erik, Koning, Roman I., Drijfhout, Jan Wouter, Nielsen, Hanne M., and Nibbering, Peter H.

Abstract

The antimicrobial peptide Ab-Cath, is a promising candidate for development as treatment for antimicrobial resistant (AMR) bacterial infections. Future clinical use is hampered by Ab-Cath's cationic peptidic nature and limited therapeutic window. Here, we evaluated hyaluronic acid-based nanogels for encapsulation of Ab-Cath to circumvent these limitations. Using microfluidics, monodispersed anionic nanogels of 156–232 nm encapsulating >99 % Ab-Cath were prepared. Unprecedented, lyophilization using polyvinyl alcohol and dextran-40 provided Ab-Cath nanogel protection and allowed easy dose adjustment. Lyophilized and redispersed Ab-Cath nanogels were as effective as Ab-Cath solution in killing AMR Staphylococcus aureus, Acinetobacter baumannii and Escherichia coli in biological fluids, and in reducing S. aureus and A. baumannii biofilms. Importantly, encapsulation of Ab-Cath in nanogels reduced Ab-Cath's cytotoxic effects on human fibroblasts by ≥10-fold. Moreover, cutaneous application of Ab-Cath nanogels eliminated bacteria colonizing 3D human skin. These findings affirm the use of nanogels to increase the selectivity index of antimicrobial peptides.

Published
2023

12. Encapsulation in oleyl-modified hyaluronic acid nanogels substantially improves the clinical potential of the antimicrobial peptides SAAP-148 and Ab-Cath

Author

van Gent, Miriam E., Klodzinska, Sylvia N., Drijfhout, Jan Wouter, Nielsen, Hanne M., Nibbering, Peter H., van Gent, Miriam E., Klodzinska, Sylvia N., Drijfhout, Jan Wouter, Nielsen, Hanne M., and Nibbering, Peter H.

Abstract

Antimicrobial peptides (AMPs) are promising alternatives to antibiotics for treatment of antimicrobial resistant (AMR) bacterial infections. However, their narrow therapeutic window due to in vivo toxicity and limited stability hampers their clinical use. Here, we evaluated encapsulation of two amphiphilic AMPs, SAAP-148 and snake cathelicidin Ab-Cath, into oleyl-modified hyaluronic acid (OL-HA) nanogels to improve their selectivity index. The AMP-loaded OL-HA nanogels ranged 181–206 nm in size with a PDI of 0.2, highly negative surface charge (−47 to −48 mV) and moderate encapsulation efficiency (53–63%). The AMP-loaded OL-HA nanogels displayed similar activity in vitro as AMP solutions against AMR Staphylococcus aureus and Acinetobacter baumannii, with a dose-dependent effect over time. Importantly, the AMP-loaded OL-HA nanogels showed decreased cytotoxicity towards human erythrocytes and primary skin fibroblast, thereby improving the selectivity index of SAAP-148 and Ab-Cath by 2- and 16.8-fold, respectively. Particularly, the selectivity of Ab-Cath-loaded OL-HA nanogels has great clinical potential, with an index that reached ≥ 300 for S. aureus and ≥ 3000 for A. baumannii. These findings indicate that OL-HA nanogels are a promising drug delivery system to reduce the cytotoxicity of AMPs without substantially affecting their antimicrobial activity, thereby increasing their selectivity index and potential as therapeutics to combat AMR bacterial infections.

Published
2023

13. Stereoisomer-Dependent Membrane Association and Capacity for Insulin Delivery Facilitated by Penetratin

Author

Birch, Ditlev, Sayers, Edward J, Christensen, Malene V, Jones, Arwyn T, Franzyk, Henrik, Nielsen, Hanne M, Birch, Ditlev, Sayers, Edward J, Christensen, Malene V, Jones, Arwyn T, Franzyk, Henrik, and Nielsen, Hanne M

Abstract

Cell-penetrating peptides (CPPs), such as penetratin, are often investigated as drug delivery vectors and incorporating d-amino acids, rather than the natural l-forms, to enhance proteolytic stability could improve their delivery efficiency. The present study aimed to compare membrane association, cellular uptake, and delivery capacity for all-l and all-d enantiomers of penetratin (PEN) by using different cell models and cargos. The enantiomers displayed widely different distribution patterns in the examined cell models, and in Caco-2 cells, quenchable membrane binding was evident for d-PEN in addition to vesicular intracellular localization for both enantiomers. The uptake of insulin in Caco-2 cells was equally mediated by the two enantiomers, and while l-PEN did not increase the transepithelial permeation of any of the investigated cargo peptides, d-PEN increased the transepithelial delivery of vancomycin five-fold and approximately four-fold for insulin at an extracellular apical pH of 6.5. Overall, while d-PEN was associated with the plasma membrane to a larger extent and was superior in mediating the transepithelial delivery of hydrophilic peptide cargoes compared to l-PEN across Caco-2 epithelium, no enhanced delivery of the hydrophobic cyclosporin was observed, and intracellular insulin uptake was induced to a similar degree by the two enantiomers.

Published
2023

14. Ca2+-Responsive Glyco-insulin

Author

Wu, Shunliang, Østergaard, Mads, Fredholt, Freja, Christensen, Niels Johan, Sørensen, Kasper K., Mishra, Narendra K., Nielsen, Hanne M., Jensen, Knud J., Wu, Shunliang, Østergaard, Mads, Fredholt, Freja, Christensen, Niels Johan, Sørensen, Kasper K., Mishra, Narendra K., Nielsen, Hanne M., and Jensen, Knud J.

Abstract

Chemical modification of peptides and proteins, such as PEGylation and lipidation, creates conjugates with new properties. However, they are typically not dynamic or stimuli-responsive. Self-assembly controlled by a stimulus will allow adjusting properties directly. Here, we report that conjugates of oligogalacturonic acids (OGAs), isolated from plant-derived pectin, are Ca2+-responsive. We report the conjugation of OGA to human insulin (HI) to create new glyco-insulins. In addition, we coupled OGA to model peptides. We studied their self-assembly by dynamic light scattering, small-angle X-ray scattering, and circular dichroism, which showed that the self-assembly to form nanostructures depended on the length of the OGA sequence and Zn2+ and Ca2+ concentrations. Subcutaneous administration of OGA12-HI with Zn2+ showed a stable decrease in blood glucose over a longer period of time compared to HI, despite the lower receptor binding affinity.

Published
2023

15. Stereochemistry and Intermolecular Interactions Influence Carrier Peptide-Mediated Insulin Delivery

Author

Diedrichsen, Ragna G., Tuelung, Pernille S., Foderà, Vito, Nielsen, Hanne M., Diedrichsen, Ragna G., Tuelung, Pernille S., Foderà, Vito, and Nielsen, Hanne M.

Abstract

The inherent low oral bioavailability of therapeutic peptides can be enhanced by the cell-penetrating peptide penetratin and its analogues shuffle and penetramax applied as carriers for delivery of insulin. In this study, the objective was to gain mechanistic insights on the effect of the carrier peptide stereochemistry on their interactions with insulin and on insulin delivery. Insulin-carrier peptide interactions were investigated using small-angle X-ray scattering and cryogenic transmission electron microscopy, while the insulin and peptide stability and transepithelial insulin permeation were evaluated in the Caco-2 cell culture model along with the carrier peptide-induced effects on epithelial integrity and cellular metabolic activity. Interestingly, the insulin transepithelial permeation was influenced by the degree of insulin-carrier peptide complexation and depended on the stereochemistry of penetramax but not of penetratin and shuffle. The l-form of the peptides initially decreased the epithelial integrity comparable to that induced by the d-peptides, suggesting a comparable mechanism of action. The immediate decrease was reversible during exposure of the Caco-2 epithelium to the l-peptides but not during exposure to the d-peptides, likely a result of their higher stability. Overall, exploration of the stereochemistry showed to be an interesting strategy for carrier peptide-mediated insulin delivery.

Published
2023

17. Partial Breast Irradiation Versus Whole Breast Irradiation for Early Breast Cancer Patients in a Randomized Phase III Trial:The Danish Breast Cancer Group Partial Breast Irradiation Trial

Author

Offersen, Birgitte V., Alsner, Jan, Nielsen, Hanne M., Jakobsen, Erik H., Nielsen, Mette H., Stenbygaard, Lars, Pedersen, Anders N., Thomsen, Mette S., Yates, Esben, Berg, Martin, Lorenzen, Ebbe L., Jensen, Ingelise, Josipovic, Mirjana, Jensen, Maj Britt, Overgaard, Jens, Offersen, Birgitte V., Alsner, Jan, Nielsen, Hanne M., Jakobsen, Erik H., Nielsen, Mette H., Stenbygaard, Lars, Pedersen, Anders N., Thomsen, Mette S., Yates, Esben, Berg, Martin, Lorenzen, Ebbe L., Jensen, Ingelise, Josipovic, Mirjana, Jensen, Maj Britt, and Overgaard, Jens

Abstract

PURPOSE: On the basis of low risk of local recurrence in elderly patients with breast cancer after conservative surgery followed by whole breast irradiation (WBI), the Danish Breast Cancer Group initiated the noninferiority external-beam partial breast irradiation (PBI) trial (ClinicalTrials.gov identifier: NCT00892814). We hypothesized that PBI was noninferior to WBI regarding breast induration. METHODS: Patients operated with breast conservation for relatively low-risk breast cancer were randomly assigned to WBI versus PBI, and all had 40 Gy/15 fractions. The primary end point was 3-year grade 2-3 breast induration. RESULTS: In total, 865 evaluable patients (434 WBI and 431 PBI) were enrolled between 2009 and 2016. Median follow-up was 5.0 years (morbidity) and 7.6 years (locoregional recurrence). The 3-year rate of induration was 9.7% for WBI and 5.1% for PBI (P = .014). Large breast size was significantly associated with induration with a 3-year incidence of 13% (WBI) and 6% (PBI) for large-breasted patients versus 6% (WBI) and 5% (PBI) for small-breasted patients. PBI showed no increased risk of dyspigmentation, telangiectasia, edema, or pain, and patient satisfaction was high. Letrozole and smoking did not increase the risk of radiation-associated morbidity. Sixteen patients had a locoregional recurrence (six WBI and 10 PBI; P = .28), 20 patients had a contralateral breast cancer, and eight patients had distant failure (five WBI and three PBI). A nonbreast second cancer was detected in 73 patients (8.4%), and there was no difference between groups. CONCLUSION: External-beam PBI for patients with low-risk breast cancer was noninferior to WBI in terms of breast induration. Large breast size was a risk factor for radiation-associated induration. Few recurrences were detected and unrelated to PBI.

Published
2022

18. Volume matters:Breast induration is associated with irradiated breast volume in the Danish Breast Cancer Group phase III randomized Partial Breast Irradiation trial

Author

Thomsen, Mette S., Alsner, Jan, Nielsen, Hanne M., Jakobsen, Erik H., Nielsen, Mette H., Møller, Mette, Pedersen, Anders N., Yates, Esben, Berg, Martin, Lorenzen, Ebbe, Jensen, Ingelise, Josipovic, Mirjana, Overgaard, Jens, Offersen, Birgitte V., Thomsen, Mette S., Alsner, Jan, Nielsen, Hanne M., Jakobsen, Erik H., Nielsen, Mette H., Møller, Mette, Pedersen, Anders N., Yates, Esben, Berg, Martin, Lorenzen, Ebbe, Jensen, Ingelise, Josipovic, Mirjana, Overgaard, Jens, and Offersen, Birgitte V.

Abstract

Purpose: The relation between breast induration grade 2–3 at 3 years after radiation therapy and irradiated breast volume was investigated for patients in the Danish Breast Cancer Group (DBCG) Partial Breast Irradiation (PBI) trial. METHODS Treatment plan data was obtained from the Danish radiotherapy plan database. Dosimetric parameters for breast and organs at risk were determined. Breast induration data was obtained from the DBCG database. The volume of the whole breast (CTVp_breast) treated to various dose levels was determined for treatment plans in both arms. Logistic regression was used to assess the frequency of induration on breast volume irradiated to ≥40 Gy. RESULTS PBI and WBI was given to 433 and 432 patients, respectively. Median and interquartile ranges (IQR) for CTVp_breast were 710 mL (467–963 mL; PBI) and 666 mL (443–1012 mL; WBI) (p = 0.98). Median and IQR for CTVp_breast treated to ≥40 Gy was 24.9% (18.6–32.6%; PBI) and 59.8% (53.6–68.5%; WBI). Grade 2–3 induration was observed in 5% (PBI) and 10% (WBI) of the patients. A dose–response relationship was established between irradiated breast volume and frequency of breast induration. From the model, 5% and 10% risks of breast induration were observed for ≥40 Gy delivered to CTVp_breast volumes of 177 mL (95%CI, 94–260 mL) and 426 mL (95%CI, 286–567 mL), respectively. CONCLUSION The frequency of breast induration increased significantly with increasing irradiated breast volume, strongly favouring small volumes and PBI. Thus, treated breast volume – not the breast size itself - is the risk factor for induration. This is the first report directly linking the 40 Gy irradiated breast volume to breast induration.

Published
2022

24. Design of a self-unfolding delivery concept for oral administration of macromolecules

Author

Jørgensen, Jacob R., Thamdrup, Lasse H.E., Kamguyan, Khorshid, Nielsen, Line H., Nielsen, Hanne M., Boisen, Anja, Rades, Thomas, Müllertz, Anette, Jørgensen, Jacob R., Thamdrup, Lasse H.E., Kamguyan, Khorshid, Nielsen, Line H., Nielsen, Hanne M., Boisen, Anja, Rades, Thomas, and Müllertz, Anette

Abstract

Delivering macromolecular drugs, e.g. peptides, to the systemic circulation by oral administration is challenging due to their degradation in the gastrointestinal tract and low transmucosal permeation. In this study, the concept of an oral delivery device utilizing an elastomeric material is presented with the potential of increasing the absorption of peptides, e.g. insulin. Absorption enhancement in the intestine is proposed as a result of self-unfolding of a polydimethylsiloxane foil upon release from enteric coated capsules. A pH-sensitive polymer coating prevents capsule disintegration until arrival in the small intestine where complete unfolding of the elastomeric foil ensures close contact with the intestinal mucosa. Foils with close-packed hexagonal compartments for optimal drug loading are produced by casting against a deep-etched silicon master. Complete unfolding of the foil upon capsule disintegration is verified in vitro and the insulin release profile of the final delivery device confirms insulin protection at gastric pH. In vivo performance is evaluated with the outcome of quantifiable plasma insulin concentrations in all rats receiving duodenal administration of the novel delivery device. By taking advantage of elastomeric material properties for drug delivery, this approach might serve as inspiration for further development of commercially viable biocompatible devices for oral delivery of macromolecules.

Published
2021

26. Lipidoid-polymer hybrid nanoparticles loaded with TNF siRNA suppress inflammation after intra-articular administration in a murine experimental arthritis model

Author

Jansen, Manon A.A., Klausen, Lasse H., Thanki, Kaushik, Lyngsø, Jeppe, Skov Pedersen, Jan, Franzyk, Henrik, Nielsen, Hanne M., van Eden, Willem, Dong, Mingdong, Broere, Femke, Foged, Camilla, Zeng, Xianghui, Jansen, Manon A.A., Klausen, Lasse H., Thanki, Kaushik, Lyngsø, Jeppe, Skov Pedersen, Jan, Franzyk, Henrik, Nielsen, Hanne M., van Eden, Willem, Dong, Mingdong, Broere, Femke, Foged, Camilla, and Zeng, Xianghui

Abstract

Rheumatoid arthritis (RA) is a common autoimmune disease, which is characterized by painful chronic inflammation in the joints, and novel safe and efficacious treatments are urgently needed. RNA interference (RNAi) therapy based on small interfering RNA (siRNA) is a promising approach for silencing specific genes involved in inflammation. However, delivery of siRNA to the target site, i.e. the cytosol of immune cells, is a challenge. Here, we designed lipid-polymer hybrid nanoparticles (LPNs) composed of lipidoid and poly(DL-lactic-co-glycolic acid) loaded with a therapeutic cargo siRNA directed against the proinflammatory cytokine tumor necrosis factor (TNF), which plays a key role in the progression of RA. We compared their efficacy and safety with reference lipidoid-based stable nucleic acid lipid particles (SNALPs) in vitro and in vivo. Cryogenic transmission electron microscopy, atomic force microscopy and small-angle X-ray scattering revealed that the mode of loading of siRNA in lamellar structures differs between the two formulations. Thus, siRNA was tightly packed in LPNs, while LPNs displayed lower adhesion than SNALPs. The LPNs mediated a higher TNF silencing effect in vitro than SNALPs in the RAW 264.7 macrophage cell line activated with lipopolysaccharide. For both types of delivery systems, macropinocytosis was involved in cellular uptake. In addition, clathrin-mediated endocytosis contributed to uptake of SNALPs. LPNs loaded with TNF siRNA mediated sequence-specific suppression of inflammation in a murine experimental arthritis model upon intra-articular administration. Hence, the present study demonstrates that LPN-mediated TNF knockdown constitutes a promising approach for arthritis therapy of TNF-mediated chronic inflammatory conditions.

Published
2019

28. Lipidoid-polymer hybrid nanoparticles loaded with TNF siRNA suppress inflammation after intra-articular administration in a murine experimental arthritis model

Author

LS Immunologie, dI&I RA-I&I I&I, Geneeskunde van gezelschapsdieren, Jansen, Manon A.A., Klausen, Lasse H., Thanki, Kaushik, Lyngsø, Jeppe, Skov Pedersen, Jan, Franzyk, Henrik, Nielsen, Hanne M., van Eden, Willem, Dong, Mingdong, Broere, Femke, Foged, Camilla, Zeng, Xianghui, LS Immunologie, dI&I RA-I&I I&I, Geneeskunde van gezelschapsdieren, Jansen, Manon A.A., Klausen, Lasse H., Thanki, Kaushik, Lyngsø, Jeppe, Skov Pedersen, Jan, Franzyk, Henrik, Nielsen, Hanne M., van Eden, Willem, Dong, Mingdong, Broere, Femke, Foged, Camilla, and Zeng, Xianghui

Published
2019

29. Hyaluronic acid-based nanogels improve in vivo compatibility of the anti-biofilm peptide DJK-5

Author

Kłodzińska, Sylvia N., Pletzer, Daniel, Rahanjam, Negin, Rades, Thomas, Hancock, Robert E.W., Nielsen, Hanne M., Kłodzińska, Sylvia N., Pletzer, Daniel, Rahanjam, Negin, Rades, Thomas, Hancock, Robert E.W., and Nielsen, Hanne M.

Abstract

Anti-biofilm peptides are a subset of antimicrobial peptides and represent promising broad-spectrum agents for the treatment of bacterial biofilms, though some display host toxicity in vivo. Here we evaluated nanogels composed of modified hyaluronic acid for the encapsulation of the anti-biofilm peptide DJK-5 in vivo. Nanogels of 174 to 194 nm encapsulating 33–60% of peptide were created. Efficacy and toxicity of the nanogels were tested in vivo employing a murine abscess model of a Pseudomonas aeruginosa LESB58 high bacterial density infection. The dose of DJK-5 that could be administered intravenously to mice without inducing toxicity was more than doubled after encapsulation in nanogels. Upon subcutaneous administration, the toxicity of the DJK-5 in nanogels was decreased four-fold compared to non-formulated peptide, without compromising the anti-abscess effect of DJK-5. These findings support the use of nanogels to increase the safety of antimicrobial and anti-biofilm peptides after intravenous and subcutaneous administration.

Published
2019

30. Lipidoid-Polymer Hybrid Nanoparticles Loaded with TNF siRNA Suppress Inflammation after Intra-articular Administration in a Murine Experimental Arthritis Model

Author

Jansen, Manon A A, Klausen, Lasse Hyldgaard, Thanki, Kaushik, Lyngsø, Jeppe, Skov Pedersen, Jan, Franzyk, Henrik, Nielsen, Hanne M, van Eden, Willem, Dong, Mingdong, Broere, Femke, Foged, Camilla, Zeng, Xianghui, Jansen, Manon A A, Klausen, Lasse Hyldgaard, Thanki, Kaushik, Lyngsø, Jeppe, Skov Pedersen, Jan, Franzyk, Henrik, Nielsen, Hanne M, van Eden, Willem, Dong, Mingdong, Broere, Femke, Foged, Camilla, and Zeng, Xianghui

Abstract

Rheumatoid arthritis (RA) is a common autoimmune disease, which is characterized by painful chronic inflammation in the joints, and novel safe and efficacious treatments are urgently needed. RNA interference (RNAi) therapy based on small interfering RNA (siRNA) is a promising approach for silencing specific genes involved in inflammation. However, delivery of siRNA to the target site, i.e. the cytosol of immune cells, is a challenge. Here, we designed lipid-polymer hybrid nanoparticles (LPNs) composed of lipidoid and poly(DL-lactic-co-glycolic acid) loaded with a therapeutic cargo siRNA directed against the proinflammatory cytokine tumor necrosis factor (TNF), which plays a key role in the progression of RA. We compared their efficacy and safety with reference lipidoid-based stable nucleic acid lipid particles (SNALPs) in vitro and in vivo. Cryogenic transmission electron microscopy, atomic force microscopy and small-angle X-ray scattering revealed that the mode of loading of siRNA in lamellar structures differs between the two formulations. Thus, siRNA was tightly packed in LPNs, while LPNs displayed lower adhesion than SNALPs. The LPNs mediated a higher TNF silencing effect in vitro than SNALPs in the RAW 264.7 macrophage cell line activated with lipopolysaccharide. For both types of delivery systems, macropinocytosis was involved in cellular uptake. In addition, clathrin-mediated endocytosis contributed to uptake of SNALPs. LPNs loaded with TNF siRNA mediated sequence-specific suppression of inflammation in a murine experimental arthritis model upon intra-articular administration. Hence, the present study demonstrates that LPN-mediated TNF knockdown constitutes a promising approach for arthritis therapy of TNF-mediated chronic inflammatory conditions.

Published
2019

33. Immunogenicity Testing of Lipidoids In Vitro and In Silico:Modulating Lipidoid-Mediated TLR4 Activation by Nanoparticle Design

Author

de Groot, Anne Marit, Thanki, Kaushik, Gangloff, Monique, Falkenberg, Emily, Zeng, Xianghui, van Bijnen, Djai C J, van Eden, Willem, Franzyk, Henrik, Nielsen, Hanne M, Broere, Femke, Gay, Nick J, Foged, Camilla, Sijts, Alice J A M, de Groot, Anne Marit, Thanki, Kaushik, Gangloff, Monique, Falkenberg, Emily, Zeng, Xianghui, van Bijnen, Djai C J, van Eden, Willem, Franzyk, Henrik, Nielsen, Hanne M, Broere, Femke, Gay, Nick J, Foged, Camilla, and Sijts, Alice J A M

Abstract

Therapeutics based on small interfering RNA (siRNA) have promising potential as antiviral and anti-inflammatory agents. To deliver siRNA across cell membranes to reach the RNAi pathway in the cytosol of target cells, non-viral nanoparticulate delivery approaches are explored. Recently, we showed that encapsulation of siRNA in lipid-polymer hybrid nanoparticles (LPNs), based on poly(DL-lactic-co-glycolic acid) (PLGA) and cationic lipid-like materials (lipidoids), remarkably enhances intracellular delivery of siRNA as compared to siRNA delivery with LPNs modified with dioleoyltrimethylammoniumpropane (DOTAP) as the lipid component. However, the potential immune modulation by these cationic lipids remains unexplored. By testing lipidoids and DOTAP for innate immune-receptor-activating properties in vitro, we found that neither lipidoids nor DOTAP activate human Toll-like receptor (TLR) 2, 3, 7, and 9. However, in contrast to DOTAP, lipidoids are strong agonists for TLR4 and activate murine antigen-presenting cells in vitro. This agonistic effect was further confirmed in silico using a prediction model based on crystal structures. Also, lipidoids formulated as lipoplexes or as stable nucleic acid lipid particles, which was the reference formulation for siRNA delivery, proved to activate TLR4. However, by combining lipidoids with PLGA into LPNs, TLR4 activation was abrogated. Thus, lipidoid-mediated TLR4 activation during siRNA delivery may be modulated via optimization of the formulation design.

Published
2018

34. Evaluation of drug permeation under fed state conditions using mucus-covered Caco-2 cell epithelium

Author

Birch, Ditlev, Diedrichsen, Ragna G, Christophersen, Philip C, Mu, Huiling, Nielsen, Hanne M, Birch, Ditlev, Diedrichsen, Ragna G, Christophersen, Philip C, Mu, Huiling, and Nielsen, Hanne M

Abstract

The absence of a surface-lining mucus layer is a major pitfall for the Caco-2 epithelial model. However, this can be alleviated by applying biosimilar mucus (BM) to the apical surface of the cell monolayer, thereby constructing a mucosa mimicking in vivo conditions. This study aims to elucidate the influence of BM as a barrier towards exogenic compounds such as permeation enhancers, and components of fed state simulated intestinal fluid (FeSSIF). Caco-2 cell monolayers surface-lined with BM were exposed to several compounds with distinct physicochemical properties, and the cell viability and permeability of the cell monolayer was compared to that of cell monolayers without BM and well-established mucus-secreting epithelial models (HT29 monolayers and HT29/Caco-2 co-culture monolayers). Exposure of BM-covered cells to constituents from FeSSIF revealed that it comprised a strong, hydrophilic barrier effect as 90% of BM-covered cells remained viable for >4 h, and the permeation rate of hydrophobic drugs was reduced. In contrast, the permeation rate of hydrophilic drugs was largely unaffected. Control monolayers displayed a loss of barrier function and <10% viable cells. The efficacy of fatty acid permeation enhancers were altered when investigated in BM-covered cells as compared to all the other studied epithelial models. Thus, Caco-2 cell monolayers surface-lined with BM constitute a valuable in vitro model that makes it possible to mimic intestinal fed state conditions when studying drug permeation.

Published
2018

36. 19F-substituted amino acids as an alternative to fluorophore labels: monitoring of degradation and cellular uptake of analogues of penetratin by 19F NMR.

Author

Christensen, Malene V., Kongstad, Kenneth T., Sondergaard, Teis Esben, Staerk, Dan, Nielsen, Hanne M., Franzyk, Henrik, and Wimmer, Reinhard

Subjects
AMINO acids, SUBSTITUTION reactions, FLUOROPHORES, NUCLEAR magnetic resonance spectroscopy, BIODEGRADATION
Abstract

Current methods for assessment of cellular uptake of cell-penetrating peptides (CPPs) often rely on detection of fluorophore-labeled CPPs. However, introduction of the fluorescent probe often confers changed physicochemical properties, so that the fluorophore-CPP conjugate may exhibit cytotoxic effects and membrane damage not exerted by the native CPP. In the present study, introduction of fluorine probes was investigated as an alternative to fluorophore labeling of a CPP, since this only confers minor changes to its overall physicochemical properties. The high sensitivity of 19F NMR spectroscopy and the absence of background signals from naturally occurring fluorine enabled detection of internalized CPP. Also, degradation of fluorine-labeled peptides during exposure to Caco-2 cells could be followed by using 19F NMR spectroscopy. In total, five fluorinated analogues of the model CPP penetratin were synthesized by using commercially available fluorinated amino acids as labels, including one analogue also carrying an N-terminal fluorophore. The apparent cellular uptake was considerably higher for the fluorophore-penetratin conjugate indicating that the fluorophore moiety promoted uptake of the peptide. The use of 19F NMR spectroscopy enabled monitoring of the fate of the CPPs over time by establishing molar balances, and by verifying CPP integrity upon uptake. Thus, the NMR-based method offers several advantages over currently widespread methods relying on fluorescence detection. The present findings provide guidelines for improved labeling strategies for CPPs, thereby expanding the repertoire of analytical techniques available for studying degradation and uptake of CPPs. [ABSTRACT FROM AUTHOR]

Published
2019
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37. The impact of particle preparation methods and polymorphic stability of lipid excipients on protein distribution in microparticles

Author

Liu, Jingying, Christophersen, Philip C, Yang, Mingshi, Nielsen, Hanne M, Mu, Huiling, Liu, Jingying, Christophersen, Philip C, Yang, Mingshi, Nielsen, Hanne M, and Mu, Huiling

Abstract

OBJECTIVE: The present study aimed at elucidating the influence of polymorphic stability of lipid excipients on the physicochemical characters of different solid lipid microparticles (SLM), with the focus on the alteration of protein distribution in SLM.METHODS: Labeled lysozyme was incorporated into SLM prepared with different excipients, i.e. trimyristin (TG14), glyceryl distearate (GDS), and glyceryl monostearate (GMS), by water-oil-water (w/o/w) or solid-oil-water (s/o/w) method. The distribution of lysozyme in SLM and the release of the protein from SLM were evaluated by confocal laser scanning microscopy. The storage stability of SLM was characterized by HPLC, differential scanning calorimetry, X-ray powder diffraction, and scanning electron microscopy.RESULTS: Lysozyme was displayed as small scattered domains inside GDS and GMS SLM, whereas it was incorporated in the core of TG14 SLM formulated by the w/o/w method or evenly distributed in TG14 SLM prepared by the s/o/w method. Stability study at 37 °C revealed that only TG14 SLM made by the w/o/w method was able to maintain the lysozyme amount both on the particle surface and released from the SLM. Elevated storage temperature induced polymorphic transition of lipids in GDS and GMS SLM, which was, however, not remarkable for the TG14 SLM.CONCLUSIONS: Lipid excipients and particle preparation methods were found to differently affect the lysozyme distribution in SLM, owning to varied storage stabilities of the lipids. The present study provides updated knowledge for rational development of lipid-based formulations for oral delivery of peptide or protein drugs.

Published
2017

38. Delivery of siRNA Complexed with Palmitoylated alpha-Peptide/beta-Peptoid Cell-Penetrating Peptidomimetics : Membrane Interaction and Structural Characterization of a Lipid-Based Nanocarrier System

Author

Jing, Xiaona, Foged, Camilla, Martin-Bertelsen, Birte, Yaghmur, Anan, Knapp, Kolja M., Malmsten, Martin, Franzyk, Henrik, Nielsen, Hanne M., Jing, Xiaona, Foged, Camilla, Martin-Bertelsen, Birte, Yaghmur, Anan, Knapp, Kolja M., Malmsten, Martin, Franzyk, Henrik, and Nielsen, Hanne M.

Abstract

Proteolytically stable alpha-peptide/beta-peptoid peptidomimetics constitute promising cell-penetrating carrier candidates exhibiting superior cellular uptake as compared to commonly used cell-penetrating peptides (CPPs). The aim of the present study was to explore the potential of these peptidomimetics for delivery of small interfering RNA (siRNA) to the cytosol by incorporation of a palmitoylated peptidomimetic construct into a cationic lipid-based nanocarrier system. The optimal construct was selected on the basis of the effect of palmitoylation and the influence of the length of the peptidomimetic on the interaction with model membranes and the cellular uptake. Palmitoylation enhanced the peptidomimetic adsorption to supported lipid bilayers as studied by ellipsometry. However, both palmitoylation and increased peptidomimetic chain length were found to be beneficial in the cellular uptake studies using fluorophore-labeled analogues. Thus, the longer palmitoylated peptidomimetic was chosen for further formulation of siRNA in a dioleoylphosphatidylethanolamine/cholesteryl hemisuccinate (DOPE/CHEMS) nanocarrier system, and the resulting nanoparticles were found to mediate efficient gene silencing in vitro. Cryo-transmission electron microscopy (cryo-TEM) revealed multilamellar, onion-like spherical vesicles, and small-angle X-ray scattering (SAXS) analysis confirmed that the majority of the lipids in the nanocarriers were organized in lamellar structures, yet coexisted with a hexagonal phase, which is important for efficient nanocarrier-mediated endosomal escape of siRNA ensuring cytosolic delivery. The present work is a proof-of-concept for the use of alpha-peptides/beta-peptoid peptidomimetics in an efficient delivery system that may be more generally exploited for the intracellular delivery of biomacromolecular drugs.

Published
2016
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39. Internal and external validation of an ESTRO delineation guideline - dependent automated segmentation tool for loco-regional radiation therapy of early breast cancer.

Author

UCL - SSS/IREC/SLUC - Pôle St.-Luc, UCL - (SLuc) Service de radiothérapie oncologique, Eldesoky, Ahmed R, Yates, Esben S, Nyeng, Tine B, Thomsen, Mette S, Nielsen, Hanne M, Poortmans, Philip, Kirkove, Carine, Krause, Mechthild, Kamby, Claus, Mjaaland, Ingvil, Blix, Egil S, Jensen, Ingelise, Berg, Martin, Lorenzen, Ebbe L, Taheri-Kadkhoda, Zahra, Offersen, Birgitte V, UCL - SSS/IREC/SLUC - Pôle St.-Luc, UCL - (SLuc) Service de radiothérapie oncologique, Eldesoky, Ahmed R, Yates, Esben S, Nyeng, Tine B, Thomsen, Mette S, Nielsen, Hanne M, Poortmans, Philip, Kirkove, Carine, Krause, Mechthild, Kamby, Claus, Mjaaland, Ingvil, Blix, Egil S, Jensen, Ingelise, Berg, Martin, Lorenzen, Ebbe L, Taheri-Kadkhoda, Zahra, and Offersen, Birgitte V

Abstract

BACKGROUND AND PURPOSE: To internally and externally validate an atlas based automated segmentation (ABAS) in loco-regional radiation therapy of breast cancer. MATERIALS AND METHODS: Structures of 60 patients delineated according to the ESTRO consensus guideline were included in four categorized multi-atlas libraries using MIM Maestro™ software. These libraries were used for auto-segmentation in two different patient groups (50 patients from the local institution and 40 patients from other institutions). Dice Similarity Coefficient, Average Hausdorff Distance, difference in volume and time were computed to compare ABAS before and after correction against a gold standard manual segmentation (MS). RESULTS: ABAS reduced the time of MS before and after correction by 93% and 32%, respectively. ABAS showed high agreement for lung, heart, breast and humeral head, moderate agreement for chest wall and axillary nodal levels and poor agreement for interpectoral, internal mammary nodal regions and LADCA. Correcting ABAS significantly improved all the results. External validation of ABAS showed comparable results. CONCLUSIONS: ABAS is a clinically useful tool for segmenting structures in breast cancer loco-regional radiation therapy in a multi-institutional setting. However, manual correction of some structures is important before clinical use. The ABAS is now available for routine clinical use in Danish patients.

Published
2016

40. Interactions between Surfactants in Solution and Electrospun Protein Fibers:Effects on Release Behavior and Fiber Properties

Author

Stephansen, Karen, García-Díaz, María, Jessen, Flemming, Chronakis, Ioannis S, Nielsen, Hanne M, Stephansen, Karen, García-Díaz, María, Jessen, Flemming, Chronakis, Ioannis S, and Nielsen, Hanne M

Abstract

Intermolecular interaction phenomena occurring between endogenous compounds, such as proteins and bile salts, and electrospun compounds are so far unreported, despite the exposure of fibers to such biorelevant compounds when applied for biomedical purposes, e.g., tissue engineering, wound healing, and drug delivery. In the present study, we present a systematic investigation of how surfactants and proteins, as physiologically relevant components, interact with insulin-loaded fish sarcoplasmic protein (FSP) electrospun fibers (FSP-Ins fibers) in solution and thereby affect fiber properties such as accessible surface hydrophilicity, physical stability, and release characteristics of an encapsulated drug. Interactions between insulin-loaded protein fibers and five anionic surfactants (sodium taurocholate, sodium taurodeoxycholate, sodium glycocholate, sodium glycodeoxycholate, and sodium dodecyl sulfate), a cationic surfactant (benzalkonium chloride), and a neutral surfactant (Triton X-100) were studied. The anionic surfactants increased the insulin release in a concentration-dependent manner, whereas the neutral surfactant had no significant effect on the release. Interestingly, only minute amounts of insulin were released from the fibers when benzalkonium chloride was present. The FSP-Ins fibers appeared dense after incubation with this cationic surfactant, whereas high fiber porosity was observed after incubation with anionic or neutral surfactants. Contact angle measurements and staining with the hydrophobic dye 8-anilino-1-naphthalenesulfonic acid indicated that the FSP-Ins fibers were hydrophobic, and showed that the fiber surface properties were affected differently by the surfactants. Bovine serum albumin also affected insulin release in vitro, indicating that also proteins may affect the fiber performance in an in vivo setting., Intermolecular interaction phenomena occurring between endogenous compounds, such as proteins and bile salts, and electrospun compounds are so far unreported, despite the exposure of fibers to such biorelevant compounds when applied for biomedical purposes, e.g., tissue engineering, wound healing, and drug delivery. In the present study, we present a systematic investigation of how surfactants and proteins, as physiologically relevant components, interact with insulin-loaded fish sarcoplasmic protein (FSP) electrospun fibers (FSP-Ins fibers) in solution and thereby affect fiber properties such as accessible surface hydrophilicity, physical stability, and release characteristics of an encapsulated drug. Interactions between insulin-loaded protein fibers and five anionic surfactants (sodium taurocholate, sodium taurodeoxycholate, sodium glycocholate, sodium glycodeoxycholate, and sodium dodecyl sulfate), a cationic surfactant (benzalkonium chloride), and a neutral surfactant (Triton X-100) were studied. The anionic surfactants increased the insulin release in a concentration-dependent manner, whereas the neutral surfactant had no significant effect on the release. Interestingly, only minute amounts of insulin were released from the fibers when benzalkonium chloride was present. The FSP-Ins fibers appeared dense after incubation with this cationic surfactant, whereas high fiber porosity was observed after incubation with anionic or neutral surfactants. Contact angle measurements and staining with the hydrophobic dye 8-anilino-1-naphthalenesulfonic acid indicated that the FSP-Ins fibers were hydrophobic, and showed that the fiber surface properties were affected differently by the surfactants. Bovine serum albumin also affected insulin release in vitro, indicating that also proteins may affect the fiber performance in an in vivo setting.

Published
2016

41. Antimicrobial activity of GN peptides and their mode of action

Author

Godballe, Troels, Mojsoska, Biljana, Nielsen, Hanne M, Jenssen, Håvard, Godballe, Troels, Mojsoska, Biljana, Nielsen, Hanne M, and Jenssen, Håvard

Abstract

Increasing prevalence of bacteria that carries resistance towards conventional antibiotics has prompted the investigation into new compounds for bacterial intervention to ensure efficient infection control in the future. One group of potential lead structures for antibiotics is antimicrobial peptides due to their characteristics as naturally derived compounds with antimicrobial activity. In this study, we aimed at characterizing the mechanism of action of a small set of in silico optimized peptides. Following determination of peptide activity against E. coli, S. aureus, and P. aeruginosa, toxicity was assessed revealing meaningful selectivity indexes for the majority of the peptides. Investigation of the peptides effect on bacteria demonstrated a rapid growth inhibition with signs of bacterial lysis together with increased bacterial size. Both visual and quantitative assays clearly demonstrated bacterial membrane disruption after 10 min for the most active peptides. The membrane disrupting effect was verified by measuring the release of calcein from bacterial mimicking liposomes. This revealed the most active peptides as inducers of immediate release, indicating the kinetics of membrane permeabilization as an important determinant of bacterial activity. No well-defined secondary structure of the peptides could be determined using CD-spectroscopy in the presence of different liposomes mixtures, implying that there is no correlation between peptide secondary structure and the observed anti-bacterial and cytotoxic activity for this set of peptides. In conjunction, these findings provide strong indications of membrane disruption as the primary mechanism of bacterial growth inhibition for the tested peptides., Increasing prevalence of bacteria that carries resistance towards conventional antibiotics has prompted the investigation into new compounds for bacterial intervention to ensure efficient infection control in the future. One group of potential lead structures for antibiotics is antimicrobial peptides due to their characteristics as naturally derived compounds with antimicrobial activity. In this study we aimed at characterizing the mechanism of action of a small set of in silico optimized peptides. Following determination of peptide activity against E. coli, S. aureus and P. aeruginosa, toxicity was assessed revealing meaningful selectivity indexes for the majority of the peptides. Investigation of the peptides effect on bacteria demonstrated a rapid growth inhibition with signs of bacterial lysis together with increased bacterial size. Both visual and quantitative assays clearly demonstrated bacterial membrane disruption after 10 minutes for the most active peptides. The membrane disrupting effect was verified by measuring the release of calcein from bacterial mimicking liposomes. This revealed the most active peptides as inducers of immediate release, indicating the kinetics of membrane permeabilization as an important determinant of bacterial activity. No well-defined secondary structure of the peptides could be determined using CD-spectroscopy in the presence of different liposomes mixtures, implying that there is no correlation between peptide secondary structure and the observed anti-bacterial and cytotoxic activity for this set of peptides. In conjunction, these findings provide strong indications of membrane disruption as the primary mechanism of bacterial growth inhibition for the tested peptides. This article is protected by copyright. All rights reserved.

Published
2015

42. Cell-penetrating antimicrobial peptides - prospectives for targeting intracellular infections

Author

Bahnsen, Jesper S, Franzyk, Henrik, Sayers, Edward J, Jones, Arwyn T, Nielsen, Hanne M, Bahnsen, Jesper S, Franzyk, Henrik, Sayers, Edward J, Jones, Arwyn T, and Nielsen, Hanne M

Abstract

PURPOSE: To investigate the suitability of three antimicrobial peptides (AMPs) as cell-penetrating antimicrobial peptides.METHODS: Cellular uptake of three AMPs (PK-12-KKP, SA-3 and TPk) and a cell-penetrating peptide (penetratin), all 5(6)-carboxytetramethylrhodamine-labeled, were tested in HeLa WT cells and analyzed by flow cytometry and confocal microscopy. Furthermore, the effects of the peptides on eukaryotic cell viability as well as their antimicrobial effect were tested. In addition, the disrupting ability of the peptides in the presence of bilayer membranes of different composition were analyzed.RESULTS: AMP uptake relative to penetratin was ~13% (PK-12-KKP), ~66% (SA-3) and ~50% (TPk). All four peptides displayed a punctate uptake pattern in HeLa WT cells with co-localization to lysosomes and no indication that clathrin-mediated endocytosis was the predominant uptake mechanism. TPk showed the highest antibacterial activity. SA-3 exhibited selective disruption of liposomes mimicking Gram-positive and Gram-negative membranes.CONCLUSION: PK-12-KKP is an unlikely candidate for targeting intracellular bacteria, as the eukaryotic cell-penetrating ability is poor. SA-3, affected the cellular viability to an unacceptable degree. TPk showed acceptable uptake efficiency, high antimicrobial activity and relatively low toxicity, and it is the best potential lead peptide for further development.

Published
2015

43. Hyaluronic Acid-Based Nanogels Produced by Microfluidics-Facilitated Self-Assembly Improves the Safety Profile of the Cationic Host Defense Peptide Novicidin

Author

Water, Jorrit J, Kim, YongTae, Maltesen, Morten J, Franzyk, Henrik, Foged, Camilla, Nielsen, Hanne M, Water, Jorrit J, Kim, YongTae, Maltesen, Morten J, Franzyk, Henrik, Foged, Camilla, and Nielsen, Hanne M

Abstract

PURPOSE: Cationic host defence peptides constitute a promising class of therapeutic drug leads with a wide range of therapeutic applications, including anticancer therapy, immunomodulation, and antimicrobial activity. Although potent and efficacious, systemic toxicity and low chemical stability have hampered their commercial development. To overcome these challenges a novel nanogel-based drug delivery system was designed.METHOD: The peptide novicidin was self-assembled with an octenyl succinic anhydride-modified analogue of hyaluronic acid, and this formulation was optimized using a microfluidics-based quality-by-design approach.RESULTS: By applying design-of-experiment it was demonstrated that the encapsulation efficiency of novicidin (15% to 71%) and the zeta potential (-24 to -57 mV) of the nanogels could be tailored by changing the preparation process parameters, with a maximum peptide loading of 36 ± 4%. The nanogels exhibited good colloidal stability under different ionic strength conditions and allowed complete release of the peptide over 14 days. Furthermore, self-assembly of novicidin with hyaluronic acid into nanogels significantly improved the safety profile at least five-fold and six-fold when tested in HUVECs and NIH 3T3 cells, respectively, whilst showing no loss of antimicrobial activity against Escherichia coli and Staphylococcus aureus.CONCLUSION: Formulation in nanogels could be a viable approach to improve the safety profile of host defence peptides.

Published
2015

44. Mechanistic profiling of the siRNA delivery dynamics of lipid-polymer hybrid nanoparticles

Author

Colombo, Stefano, Cun, Dongmei, Remaut, Katrien, Bunker, Matt, Zhang, Jianxin, Martin-Bertelsen, Birte, Yaghmur, Anan, Braeckmans, Kevin, Nielsen, Hanne M, Foged, Camilla, Colombo, Stefano, Cun, Dongmei, Remaut, Katrien, Bunker, Matt, Zhang, Jianxin, Martin-Bertelsen, Birte, Yaghmur, Anan, Braeckmans, Kevin, Nielsen, Hanne M, and Foged, Camilla

Abstract

Understanding the delivery dynamics of nucleic acid nanocarriers is fundamental to improve their design for therapeutic applications. We investigated the carrier structure-function relationship of lipid-polymer hybrid nanoparticles (LPNs) consisting of poly(dl-lactic-co-glycolic acid) (PLGA) nanocarriers modified with the cationic lipid dioleoyltrimethyl-ammoniumpropane (DOTAP). A library of siRNA-loaded LPNs was prepared by systematically varying the nitrogen-to-phosphate (N/P) ratio. Atomic force microscopy (AFM) and cryo-transmission electron microscopy (cryo-TEM) combined with small angle X-ray scattering (SAXS) and confocal laser scanning microscopy (CLSM) studies suggested that the siRNA-loaded LPNs are characterized by a core-shell structure consisting of a PLGA matrix core coated with lamellar DOTAP structures with siRNA localized both in the core and in the shell. Release studies in buffer and serum-containing medium combined with in vitro gene silencing and quantification of intracellular siRNA suggested that this self-assembling core-shell structure influences the siRNA release kinetics and the delivery dynamics. A main delivery mechanism appears to be mediated via the release of transfection-competent siRNA-DOTAP lipoplexes from the LPNs. Based on these results, we suggest a model for the nanostructural characteristics of the LPNs, in which the siRNA is organized in lamellar superficial assemblies and/or as complexes entrapped in the polymeric matrix.

Published
2015

45. Investigation of protein distribution in solid lipid particles and its impact on protein release using coherent anti-Stokes Raman scattering microscopy

Author

Christophersen, Philip C., Birch, Ditlev, Saarinen, Jukka, Isomäki, Antti, Nielsen, Hanne M., Yang, Mingshi, Strachan, Clare J., Mu, Huiling, Christophersen, Philip C., Birch, Ditlev, Saarinen, Jukka, Isomäki, Antti, Nielsen, Hanne M., Yang, Mingshi, Strachan, Clare J., and Mu, Huiling

Abstract

The aim of this study was to gain new insights into protein distribution in solid lipid microparticles (SLMs) and subsequent release mechanisms using a novel label-free chemical imaging method, coherent anti-Stokes Raman scattering (CARS) microscopy. Lysozyme-loaded SLMs were prepared using different lipids with lysozyme incorporated either as an aqueous solution or as a solid powder. Lysozyme distribution in SLMs was investigated using CARS microscopy with supportive structural analysis using electron microscopy. The release of lysozyme from SLMs was investigated in a medium simulating the conditions in the human duodenum. Both preparation method and lipid excipient affected the lysozyme distribution and release from SLMs. Lysozyme resided in a hollow core within the SLMs when incorporated as an aqueous solution. In contrast, lysozyme incorporated as a solid was embedded in clusters in the solid lipid matrix, which required full lipolysis of the entire matrix to release lysozyme completely. Therefore, SLMs with lysozyme incorporated in an aqueous solution released lysozyme much faster than with lysozyme incorporated as a solid. In conclusion, CARS microscopy was an efficient and non-destructive method for elucidating the distribution of lysozyme in SLMs. The interpretation of protein distribution and release during lipolysis enabled elucidation of protein release mechanisms. In future, CARS microscopy analysis could facilitate development of a wide range of protein-lipid matrices with tailor-made controlled release properties.

Published
2015

46. Carbonic anhydrase IX and response to postmastectomy radiotherapy in high-risk breast cancer: a subgroup analysis of the DBCG82 b and c trials

Author

Kyndi, Marianne, Sørensen, Flemming B, Knudsen, Helle, Alsner, Jan, Overgaard, Marie, Nielsen, Hanne M, Overgaard, Jens, and Danish, Breast Cancer Cooperative Group

Subjects
Oncology, Adult, medicine.medical_specialty, medicine.medical_treatment, Subgroup analysis, Breast Neoplasms, Kaplan-Meier Estimate, Risk Assessment, Gene Expression Regulation, Enzymologic, Breast cancer, Surgical oncology, Antigens, Neoplasm, Risk Factors, Carbonic anhydrase, Internal medicine, Antineoplastic Combined Chemotherapy Protocols, Biomarkers, Tumor, medicine, Humans, Carbonic Anhydrase IX, Kaplan-Meiers Estimate, Mastectomy, Aged, Carbonic Anhydrases, Proportional Hazards Models, Medicine(all), Gynecology, biology, Proportional hazards model, business.industry, Middle Aged, medicine.disease, Postmastectomy radiation, Microarray Analysis, Gene Expression Regulation, Neoplastic, Logistic Models, Treatment Outcome, Chemotherapy, Adjuvant, Tumor Markers, Biological, biology.protein, Female, Radiotherapy, Adjuvant, business, Research Article
Abstract

Udgivelsesdato: 2008-null INTRODUCTION: A significant survival improvement after postmastectomy radiotherapy was identified in the Danish Breast Cancer Cooperative Group (DBCG82) b and c studies and in the British Columbia Randomized Radiation Trial. Recently, potential predictive value regarding response to postmastectomy radiotherapy was reported for carbonic anhydrase (CA) IX in a study (reported in abstract form) that included 160 patients. The purpose of the present study was to examine the importance of CA IX to response to postmastectomy radiotherapy in the larger scaled DBCG82 b and c studies. METHODS: The DBCG82 b and c studies included 3,083 high-risk Danish breast cancer patients. The women were randomly assigned to postmastectomy radiotherapy plus systemic therapy (cyclophosfamide, methotrexate and fluorouracil in premenopausal women; and tamoxifen in postmenopausal women) or to systemic therapy alone. Cores from invasive tumour-containing paraffin blocks from 1,000 patients (more than seven nodes surgically removed) were transferred to tissue microarrays. Tissue microarray sections were stained immunohistochemically for CA IX (M75). The median follow up for patients remaining alive was 17 years. Clinical end-points were loco-regional recurrence, distant metastases, disease-specific survival and overall survival. Statistical analyses included kappa statistics, chi2 or exact tests, Kaplan-Meier probability plots, Log-rank test and Cox regression analyses. RESULTS: CA IX was assessable in 945 cores. The percentage of tumours positive for CA IX was 16% (> or = 10% invasive tumour staining). CA IX was not an independent prognostic marker for survival, distant metastases, or locoregional recurrence in the subgroup of 945 patients or within either of the two randomization arms. In subgroup analyses, however, CA IX was an independent prognostic marker for overall survival among postmenopausal women (P = 0.001), women with one to three positive nodes (P = 0.02) and hormone receptor positive women (P = 0.001). Fifteen-year probabilities of overall survival were improved by 9% and 7% after postmastectomy radiotherapy for the subgroups of CA IX negative and CA IX positive patients, respectively. CONCLUSION: Within this series of 945 high-risk premenopausal and postmenopausal women, positivity for CA IX was not overall an independent prognostic marker for survival; only in subgroup analyses was it found to have prognostic value. The improvement in 15-year survival after postmastectomy radiotherapy was of similar magnitude in the two subgroups of CA IX positive and CA IX negative patients.

Published
2008
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47. Property profiling of biosimilar mucus in a novel mucus-containing in vitro model for assessment of intestinal drug absorption

Author

Bøgh, Marie, Baldursdóttir, Stefania G, Müllertz, Anette, Nielsen, Hanne M, Bøgh, Marie, Baldursdóttir, Stefania G, Müllertz, Anette, and Nielsen, Hanne M

Abstract

Oral delivery of drugs, including peptide and protein therapeutics, can be impeded by the presence of the mucus surface-lining the intestinal epithelium. The aim of the present project was to design and characterize biosimilar mucus compatible with Caco-2 cell monolayers cultured in vitro to establish a more representative in vitro model for the intestinal mucosa. The rheological profile of a biosimilar mucus mixture composed of purified gastric mucin, lipids and protein in buffer was optimized by supplementing with an anionic polymer to display viscoelastic properties and a microstructure comparable to freshly isolated porcine intestinal mucus (PIM). Further, this multicomponent biosimilar mucus mixture was optimized with regards to the lipid content in order to obtain cellular biocompatibility with well-differentiated Caco-2 cell monolayers. In contrast, PIM was found to severely disrupt the Caco-2 cell monolayer. When combined with the Caco-2 cell monolayers, the final biosimilar mucus was found to significantly affect the permeability profiles for hydrophobic and hydrophilic small and large model drug compounds in different ways. In conclusion, the present study describes an improvement of the biorelevance of the Caco-2 cell culture model by application of mucus, resulting in an in vitro model of oral mucosa suitable for future assessment of innovative drug delivery approaches.

Published
2014

48. Solid lipid particles for oral delivery of peptide and protein drugs III - the effect of fed state conditions on the in vitro release and degradation of desmopressin

Author

Christophersen, Philip C, Vaghela, Dimple, Müllertz, Anette, Yang, Mingshi, Nielsen, Hanne M, Mu, Huiling, Christophersen, Philip C, Vaghela, Dimple, Müllertz, Anette, Yang, Mingshi, Nielsen, Hanne M, and Mu, Huiling

Abstract

The effect of food intake on the release and degradation of peptide drugs from solid lipid particles is unknown and was therefore investigated in vitro using different fed state media in a lipolysis model. Desmopressin was used as a model peptide and incorporated into solid lipid particles consisting of trimyristin (TG14), tripalmitin (TG16), and tristearin (TG18), respectively. Fasted state and fed state media with varying phospholipid and bile salt concentrations, as well as fed state media with milk and oleic acid glycerides, respectively, were used as the release media. The presence of oleic acid glycerides accelerated the release of desmopressin significantly from all solid lipid particles both in the presence and absence of lipase. The presence of oleic acid glycerides also reduced the degradation rate of desmopressin, probably due to the interactions between the lipids and the protease or desmopressin. Addition of a medium chain triglyceride, trilaurin, in combination with drug-loaded lipid particles diminished the food effect on the TG18 particles, and trilaurin is therefore proposed to be a suitable excipient for reduction of the food effect. Overall, the present study shows that strategies to reduce food effect, such as adding trilaurin, for lipid particle formulations should be considered as drug release from such formulations might be influenced by the presence of food in the gastrointestinal tract.

Published
2014

49. Interaction of Peptidomimetics with Bilayer Membranes : Biophysical Characterization and Cellular Uptake

Author

Jing, Xiaona, Kasimova, Marina R., Simonsen, Anders H., Jorgensen, Lene, Malmsten, Martin, Franzyk, Henrik, Foged, Camilla, Nielsen, Hanne M., Jing, Xiaona, Kasimova, Marina R., Simonsen, Anders H., Jorgensen, Lene, Malmsten, Martin, Franzyk, Henrik, Foged, Camilla, and Nielsen, Hanne M.

Abstract

Enzymatically stable cell-penetrating alpha-peptide/beta-peptoid peptidomimetics constitute promising drug delivery vehicles for the transport of therapeutic biomacromolecules across membrane barriers. The aim of the present study was to elucidate the mechanism of peptidomimetic-lipid bilayer interactions. A series of peptidomimetics consisting of alternating cationic and hydrophobic residues displaying variation in length and N-terminal end group were applied to fluid-phase, anionic lipid bilayers, and their interaction was investigated using isothermal titration calorimetry (ITC) and ellipsometry. Titration of lipid vesicles into solutions of peptidomimetics resulted in exothermic adsorption processes, and the interaction of all studied peptidomimetics with anionic lipid membranes was found to be enthalpy-driven. The enthalpy and Gibbs free energy (Delta G) proved more favorable with increasing chain length. However, not all charges contribute equally to the interaction, as evidenced by the charge-normalized Delta G being inversely correlated to the sequence length. Ellipsometry data suggested that the hydrophobic residues also played an important role in the interaction process. Furthermore, Delta G extracted from ellipsometry data showed good agreement with that obtained with ITC. To further elucidate their interaction with biological membranes, quantitative uptake and cellular distribution were studied in proliferating HeLa cells by flow cytometry and confocal microscopy. The cellular uptake of carboxyfluorescein-labeled peptidomimetics showed a similar ranking as that obtained from the adsorbed amount, and binding energy to model membranes demonstrated that the initial interaction with the membrane is of key importance for the cellular uptake.

Published
2012
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50. Membrane adsorption and binding, cellular uptake and cytotoxicity of cell-penetrating peptidomimetics with alpha-peptide/beta-peptoid backbone : Effects of hydrogen bonding and alpha-chirality in the beta-peptoid residues

Author

Jing, Xiaona, Yang, Mingjun, Kasimova, Marina R., Malmsten, Martin, Franzyk, Henrik, Jorgensen, Lene, Foged, Camilla, Nielsen, Hanne M., Jing, Xiaona, Yang, Mingjun, Kasimova, Marina R., Malmsten, Martin, Franzyk, Henrik, Jorgensen, Lene, Foged, Camilla, and Nielsen, Hanne M.

Abstract

Cell-penetrating peptides (CPPs) provide a promising approach for enhancing intracellular delivery of therapeutic biomacromolecules by increasing transport through membrane barriers. Here, proteolytically stable cell-penetrating peptidomimetics with alpha-peptide/beta-peptoid backbone were studied to evaluate the effect of alpha-chirality in the beta-peptoid residues and the presence of guanidinium groups in the alpha-amino acid residues on membrane interaction. The molecular properties of the peptidomimetics in solution (surface and intramolecular hydrogen bonding, aqueous diffusion rate and molecular size) were studied along with their adsorption to lipid bilayers, cellular uptake, and toxicity. The surface hydrogen bonding ability of the peptidomimetics reflected their adsorbed amounts onto lipid bilayers as well as with their cellular uptake, indicating the importance of hydrogen bonding for their membrane interaction and cellular uptake. Ellipsometry studies further demonstrated that the presence of chiral centers in the beta-peptoid residues promotes a higher adsorption to anionic lipid bilayers, whereas circular dichroism results showed that alpha-chirality influences their overall mean residue ellipticity. The presence of guanidinium groups and alpha-chiral beta-peptoid residues was also found to have a significant positive effect on uptake in living cells. Together, the findings provide an improved understanding on the behavior of cell-penetrating peptidomimetics in the presence of lipid bilayers and live cells.

Published
2012
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