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Researchers present new insight into tumours

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New Jersey | January 5, 2024 9:51:31 PM IST
Water cycling across membrane transporters is a characteristic of cell metabolism and has the potential to be very diagnostic in the characterisation of tumours and other illnesses.

An Italian research team has recently published a novel MRI-based approach for evaluating this water exchange in the journal Angewandte Chemie. They were able to determine the degree of malignancy and the efficacy of therapies in mouse tumour models using this strategy.

Not all malignancies are created equal. Depending on the type of tumour, a specific therapy may be effective or utterly ineffective. It is critical to correctly detect the tumour and determine its malignancy for focused, efficient, and mild therapy. Magnetic resonance imaging (MRI) produces pictures that are both temporal and spatially resolved.

During this procedure, the patient lies in a "tube" in which there is a very strong magnetic field. The spins of protons (the nuclei of hydrogen atoms) align themselves in this magnetic field. Radio waves are beamed in and synchronize the precessions of the spins, temporarily flipping some of them. Depending on the composition of the tissue, this "magnetization" is lost at different times (relaxation). This can be used to compute 3D images. Gadolinium contrast agents reduce the relaxation times. These agents are more concentrated in tumours because their blood vessels are particularly permeable. This increases the contrast and makes it easier to define the tumour.

Contrast agents only spread through the extracellular compartments of the tumor; they do not enter tumor cells. A team led by Giuseppe Ferrauto and Silvio Aime wanted to exploit this feature to determine the degree of water exchange through the cell membrane. Tumor cells are more metabolically active than healthy cells and have more transport proteins and channels in their cell membranes. These proteins also allow water to enter and exit the cell, and the degree of water exchange is a measure of the aggressiveness of a tumor. Yet, classic MRI cannot show this.

The team from the University of Torino and IRCCS SDN SynLab in Naples decided to work with a new MRI method called CEST (Chemical Exchange Saturation Transfer). There is constant proton exchange between free water and hydrogen-containing groups in biomolecules, such as the amine groups in creatine. The radio frequencies at which a proton can be "magnetized" depends on the chemical environment of that proton, so frequencies are different for protons in free water and those bound to creatine, for example. With a matching pulse, the creatine-bound protons can be saturated. These protons are exchanged and bind to nearby free water. They keep their "saturated magnetization state" as they do this. If radio waves with the right frequency for free water protons are then pulsed, an increasing number of these protons are already magnetized and cannot absorb the energy (the CEST signal in MR images). Absorption decreases until the proton exchange reaches equilibrium. This makes it possible to draw conclusions about the concentration of creatine and other proton exchanging molecules in a cell, which can be used for cancer phenotyping.

If a contrast agent is then administered and enters the extracellular compartment, the magnetization of the water protons there decreases significantly faster. Because water is exchanged through the membrane, the number of magnetized water protons within the cells also decreases more quickly. This in turn changes the CEST signals. The changes after addition of contrast agent reflect the permeability of the tumor cell membrane to water.

The team tested this method in mouse models for breast cancer with different degrees of malignancy. As expected, the observable water exchange increase as the tumors grew more aggressive. Within the tumors, it was also possible to differentiate between areas of differing malignancy. The cytostatic drug Doxorubicin immediately reduced the water permeability. (ANI)

 
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