Add to ORKGAcidity at surface of cancer cells is a hallmark of tumor microenvironments, which does not depend on tumor perfusion, thus it may serve as a general biomarker for targeting tumor cells. We used the pH (low) insertion peptide (pHLIP) for decoration of liposomes and niosomes. pHLIP senses pH at the surface of cancer cells and inserts into the membrane of targeted cells, and brings nanomaterial to close proximity of cellular membrane. DMPC liposomes and Tween 20 or Span 20 niosomes with and without pHLIP in their coating were fully characterized in order to obtain fundamental understanding on nanocarrier features and facilitate the rational design of acidity sensitive nanovectors. The samples stability over time and in presence of serum was d...
Cancer is a complex disease with a range of genetic and biochemical markers within and among tumors,...
An innovative pH-switchable colloidal system that can be exploited for site-selective anticancer dru...
A hallmark of the tumor microenvironment in malignant tumor is extracellular acidosis, which can be ...
Acidity at surface of cancer cells is a hallmark of tumor microenvironments, which does not depend o...
Acidity at surface of cancer cells is a hallmark of tumor microenvironments, which does not depend o...
Abstract Acidity at surface of cancer cells is a hallmark of tumor microenvironments, which does not...
Many contemporary therapeutic and imaging approaches to cancer treatment are based on specific tumor...
We develop a method for pH-dependent fusion between liposomes and cellular membranes using pHLIP (pH...
The aim of this work was the preparation and characterization of pHLIP-coated niosomes as novel deli...
Targeted drug delivery has been the major topic in drug formulation and delivery. As nanomedicine em...
Targeted drug delivery has been the major topic in drug formulation and delivery. As nanomedicine em...
When particles approach a nanoscale size, they exhibit novel properties not seen in their bulk count...
Targeted drug delivery has been the major topic in drug formulation and delivery. As nanomedicine em...
Extracellular acidity is a universal biomarker for carcinoma and a number of other pathological cond...
Here we review a novel class of delivery vehicles based on pH-sensitive, moderately polar membrane p...
Cancer is a complex disease with a range of genetic and biochemical markers within and among tumors,...
An innovative pH-switchable colloidal system that can be exploited for site-selective anticancer dru...
A hallmark of the tumor microenvironment in malignant tumor is extracellular acidosis, which can be ...
Acidity at surface of cancer cells is a hallmark of tumor microenvironments, which does not depend o...
Acidity at surface of cancer cells is a hallmark of tumor microenvironments, which does not depend o...
Abstract Acidity at surface of cancer cells is a hallmark of tumor microenvironments, which does not...
Many contemporary therapeutic and imaging approaches to cancer treatment are based on specific tumor...
We develop a method for pH-dependent fusion between liposomes and cellular membranes using pHLIP (pH...
The aim of this work was the preparation and characterization of pHLIP-coated niosomes as novel deli...
Targeted drug delivery has been the major topic in drug formulation and delivery. As nanomedicine em...
Targeted drug delivery has been the major topic in drug formulation and delivery. As nanomedicine em...
When particles approach a nanoscale size, they exhibit novel properties not seen in their bulk count...
Targeted drug delivery has been the major topic in drug formulation and delivery. As nanomedicine em...
Extracellular acidity is a universal biomarker for carcinoma and a number of other pathological cond...
Here we review a novel class of delivery vehicles based on pH-sensitive, moderately polar membrane p...
Cancer is a complex disease with a range of genetic and biochemical markers within and among tumors,...
An innovative pH-switchable colloidal system that can be exploited for site-selective anticancer dru...
A hallmark of the tumor microenvironment in malignant tumor is extracellular acidosis, which can be ...