Kristian Pietras scite author profile

Many solid tumours show an increased interstitial fluid pressure (IFP), which forms a barrier to transcapillary transport. This barrier is an obstacle in tumour treatment, as it results in inefficient uptake of therapeutic agents. There are a number of factors that contribute to increased IFP in the tumour, such as vessel abnormalities, fibrosis and contraction of the interstitial matrix. Lowering the tumour IFP with specific signal-transduction antagonists might be a useful approach to improving anticancer drug efficacy.

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Tertiary lymphoid structures improve immunotherapy and survival in melanoma

Cabrita

Lauss

Sanna

et al. 2020

Nature

1,532

1,283

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Protein detection using proximity-dependent DNA ligation assays

Simon¹,

Gullberg²,

Jarvius³

et al. 2002

Nat Biotechnol

1,314

1,085

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The advent of in vitro DNA amplification has enabled rapid acquisition of genomic information. We present here an analogous technique for protein detection, in which the coordinated and proximal binding of a target protein by two DNA aptamers promotes ligation of oligonucleotides linked to each aptamer affinity probe. The ligation of two such proximity probes gives rise to an amplifiable DNA sequence that reflects the identity and amount of the target protein. This proximity ligation assay detects zeptomole (40 x 10(-21) mol) amounts of the cytokine platelet-derived growth factor (PDGF) without washes or separations, and the mechanism can be generalized to other forms of protein analysis.

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Hallmarks of cancer: Interactions with the tumor stroma

Pietras

Östman

2010

Experimental Cell Research

999

801

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Spatially and functionally distinct subclasses of breast cancer-associated fibroblasts revealed by single cell RNA sequencing

et al. 2018

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Cancer-associated fibroblasts (CAFs) are a major constituent of the tumor microenvironment, although their origin and roles in shaping disease initiation, progression and treatment response remain unclear due to significant heterogeneity. Here, following a negative selection strategy combined with single-cell RNA sequencing of 768 transcriptomes of mesenchymal cells from a genetically engineered mouse model of breast cancer, we define three distinct subpopulations of CAFs. Validation at the transcriptional and protein level in several experimental models of cancer and human tumors reveal spatial separation of the CAF subclasses attributable to different origins, including the peri-vascular niche, the mammary fat pad and the transformed epithelium. Gene profiles for each CAF subtype correlate to distinctive functional programs and hold independent prognostic capability in clinical cohorts by association to metastatic disease. In conclusion, the improved resolution of the widely defined CAF population opens the possibility for biomarker-driven development of drugs for precision targeting of CAFs.

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