Daniel A. Hammer scite author profile

Tumors are stiffer than normal tissue, and tumors have altered integrins. Because integrins are mechanotransducers that regulate cell fate, we asked whether tissue stiffness could promote malignant behavior by modulating integrins. We found that tumors are rigid because they have a stiff stroma and elevated Rho-dependent cytoskeletal tension that drives focal adhesions, disrupts adherens junctions, perturbs tissue polarity, enhances growth, and hinders lumen formation. Matrix stiffness perturbs epithelial morphogenesis by clustering integrins to enhance ERK activation and increase ROCK-generated contractility and focal adhesions. Contractile, EGF-transformed epithelia with elevated ERK and Rho activity could be phenotypically reverted to tissues lacking focal adhesions if Rho-generated contractility or ERK activity was decreased. Thus, ERK and Rho constitute part of an integrated mechanoregulatory circuit linking matrix stiffness to cytoskeletal tension through integrins to regulate tissue phenotype.

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Polymersomes: Tough Vesicles Made from Diblock Copolymers

Discher

Won

Ege

et al. 1999

Science

2,387

2,173

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Vesicles were made from amphiphilic diblock copolymers and characterized by micromanipulation. The average molecular weight of the specific polymer studied, polyethyleneoxide-polyethylethylene (EO40-EE37), is several times greater than that of typical phospholipids in natural membranes. Both the membrane bending and area expansion moduli of electroformed polymersomes (polymer-based liposomes) fell within the range of lipid membrane measurements, but the giant polymersomes proved to be almost an order of magnitude tougher and sustained far greater areal strain before rupture. The polymersome membrane was also at least 10 times less permeable to water than common phospholipid bilayers. The results suggest a new class of synthetic thin-shelled capsules based on block copolymer chemistry.

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Self-Assembly of Janus Dendrimers into Uniform Dendrimersomes and Other Complex Architectures

Percéc

Wilson

Leowanawat

et al. 2010

Science

668

747

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Self-assembled nanostructures obtained from natural and synthetic amphiphiles serve as mimics of biological membranes and enable the delivery of drugs, proteins, genes, and imaging agents. Yet the precise molecular arrangements demanded by these functions are difficult to achieve. Libraries of amphiphilic Janus dendrimers, prepared by facile coupling of tailored hydrophilic and hydrophobic branched segments, have been screened by cryogenic transmission electron microscopy, revealing a rich palette of morphologies in water, including vesicles, denoted dendrimersomes, cubosomes, disks, tubular vesicles, and helical ribbons. Dendrimersomes marry the stability and mechanical strength obtainable from polymersomes with the biological function of stabilized phospholipid liposomes, plus superior uniformity of size, ease of formation, and chemical functionalization. This modular synthesis strategy provides access to systematic tuning of molecular structure and of self-assembled architecture.

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The cancer glycocalyx mechanically primes integrin-mediated growth and survival

Paszek¹,

DuFort²,

Rossier

et al. 2014

Nature

615

646

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Malignancy is associated with altered expression of glycans and glycoproteins that contribute to the cellular glycocalyx. We constructed a glycoprotein expression signature, which revealed that metastatic tumours upregulate expression of bulky glycoproteins. A computational model predicted that these glycoproteins would influence transmembrane receptor spatial organization and function. We tested this prediction by investigating whether bulky glycoproteins in the glycocalyx promote a tumour phenotype in human cells by increasing integrin adhesion and signalling. Our data revealed that a bulky glycocalyx facilitates integrin clustering by funnelling active integrins into adhesions and altering integrin state by applying tension to matrix-bound integrins, independent of actomyosin contractility. Expression of large tumour-associated glycoproteins in non-transformed mammary cells promoted focal adhesion assembly and facilitated integrin-dependent growth factor signalling to support cell growth and survival. Clinical studies revealed that large glycoproteins are abundantly expressed on circulating tumour cells from patients with advanced disease. Thus, a bulky glycocalyx is a feature of tumour cells that could foster metastasis by mechanically enhancing cell-surface receptor function.

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Molecular Weight Dependence of Polymersome Membrane Structure, Elasticity, and Stability

et al. 2002

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Vesicles prepared in water from a series of diblock copolymers -"polymersomes" -are physically characterized and compared to lipid vesicles. With increasing molecular weightM n , the hydrophobic core thickness d for the self-assembled bilayers of poly(ethylene oxide)-polybutadiene (PEO-PBD) increases up to ≃20 nm -considerably greater than any previously studied lipid system. The mechanical responses of these membranes, specifically, the area elastic modulus K a and maximal areal strain α c are measured by micromanipulation. As expected for interface-dominated elasticity, K a (≃100 pN/nm) is found to be independent ofM n , but lower than the usual values for zwitterionic lipid membranes. Experiments on polymersomes show α c increases in a nearly linear fashion withM n , approaching a limiting value predicted by mean-field ideas which is universal and about 10-fold above that typical of lipids. Nonlinear responses and memory effects generally emerge with increasingM n , indicating the onset of chain entanglements at higherM n . The effects ofM n thus suggest a compromise between stability and fluidity for biomembranes. More generally, the results highlight the interfacial limits of self-assemblies at the nanoscale.

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Daniel A. Hammer

Tensional homeostasis and the malignant phenotype

Polymersomes: Tough Vesicles Made from Diblock Copolymers

Self-Assembly of Janus Dendrimers into Uniform Dendrimersomes and Other Complex Architectures

The cancer glycocalyx mechanically primes integrin-mediated growth and survival

Molecular Weight Dependence of Polymersome Membrane Structure, Elasticity, and Stability

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