Investigating the contribution of hyaluronan to the breast tumour microenvironment using multiparametric MRI and MR elastography

Emma L. Reeves; Jin Li; Konstantinos Zormpas‐Petridis; Jessica K. R. Boult; James Sullivan; Craig Cummings; Barbara Blouw; David Kang; Ralph Sinkus; Jeffrey C. Bamber; Yann Jamin; Simon P. Robinson

doi:10.1002/1878-0261.13437

Molecular Oncology (Jun 2023)

Investigating the contribution of hyaluronan to the breast tumour microenvironment using multiparametric MRI and MR elastography

Emma L. Reeves,
Jin Li,
Konstantinos Zormpas‐Petridis,
Jessica K. R. Boult,
James Sullivan,
Craig Cummings,
Barbara Blouw,
David Kang,
Ralph Sinkus,
Jeffrey C. Bamber,
Yann Jamin,
Simon P. Robinson

Affiliations

Emma L. Reeves: Division of Radiotherapy and Imaging The Institute of Cancer Research London UK
Jin Li: Division of Radiotherapy and Imaging The Institute of Cancer Research London UK
Konstantinos Zormpas‐Petridis: Division of Radiotherapy and Imaging The Institute of Cancer Research London UK
Jessica K. R. Boult: Division of Radiotherapy and Imaging The Institute of Cancer Research London UK
James Sullivan: Royal Marsden NHS Foundation Trust London UK
Craig Cummings: Division of Radiotherapy and Imaging The Institute of Cancer Research London UK
Barbara Blouw: Halozyme Therapeutics San Diego CA USA
David Kang: Halozyme Therapeutics San Diego CA USA
Ralph Sinkus: Division of Imaging Sciences and Biomedical Engineering King's College London UK
Jeffrey C. Bamber: Division of Radiotherapy and Imaging The Institute of Cancer Research London UK
Yann Jamin: Division of Radiotherapy and Imaging The Institute of Cancer Research London UK
Simon P. Robinson: Division of Radiotherapy and Imaging The Institute of Cancer Research London UK

DOI: https://doi.org/10.1002/1878-0261.13437
Journal volume & issue: Vol. 17, no. 6
pp. 1076 – 1092

Abstract

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Hyaluronan (HA) is a key component of the dense extracellular matrix in breast cancer, and its accumulation is associated with poor prognosis and metastasis. Pegvorhyaluronidase alfa (PEGPH20) enzymatically degrades HA and can enhance drug delivery and treatment response in preclinical tumour models. Clinical development of stromal‐targeted therapies would be accelerated by imaging biomarkers that inform on therapeutic efficacy in vivo. Here, PEGPH20 response was assessed by multiparametric magnetic resonance imaging (MRI) in three orthotopic breast tumour models. Treatment of 4T1/HAS3 tumours, the model with the highest HA accumulation, reduced T1 and T2 relaxation times and the apparent diffusion coefficient (ADC), and increased the magnetisation transfer ratio, consistent with lower tissue water content and collapse of the extracellular space. The transverse relaxation rate R2* increased, consistent with greater erythrocyte accessibility following vascular decompression. Treatment of MDA‐MB‐231 LM2‐4 tumours reduced ADC and dramatically increased tumour viscoelasticity measured by MR elastography. Correlation matrix analyses of data from all models identified ADC as having the strongest correlation with HA accumulation, suggesting that ADC is the most sensitive imaging biomarker of tumour response to PEGPH20.

Published in Molecular Oncology

ISSN: 1574-7891 (Print); 1878-0261 (Online)
Publisher: Wiley
Country of publisher: United Kingdom
LCC subjects: Medicine: Internal medicine: Neoplasms. Tumors. Oncology. Including cancer and carcinogens
Website: https://febs.onlinelibrary.wiley.com/journal/18780261

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