Assay of Blood Brain Barrier and Placental Barrier Permeability

Authors

Saurabh Kumar Agnihotri*, Poonam Singh*, Balawant Kumar, Pankaj Singh, Swatantra Kumar Jain, Mahesh Chandra Tewari, Sadan Kumar, Monika Sachdev and Raj Kamal Tripathi

Summary

Evans blue dye solution was used to observe the effect of a viral protein on two pre-defined barriers of the body i.e. the blood brain barrier (BBB) and the placental barrier (PB). This dye has strong affinity for serum albumin and does not cross these barriers under natural conditions. As all the dye gets bound to albumin, all the neural tissues and embryonic tissues remain unstained. When the BBB and PB are compromised due to the breach of these barriers, albumin-bound Evans blue enters the CNS and the placenta.

Materials

1. Pregnant Sprague Dawley rats
2. Protein of Interest: Recombinant Nef
3. Evans blue dye (Sigma-Aldrich)
4. NaCl (Sigma-Aldrich)
5. Phosphate buffer saline (PBS) (Sigma-Aldrich)

Equipment

1. Homogenizer (Coleparmer)
2. Centrifuge (Eppendorf)
3. Weighing Balance (Mettler Toledo)
4. Spectrophotometer (Gene Quant)

Procedure

1. 2% Evans Blue dye was dissolved in normal saline (0.85% sodium chloride). 500 μl of dye containing recombinant protein was injected intravenously in the tail vein of fourteen days pregnant Sprague Dawley rats.
2. Recombinant protein in the range 50-500 μg was used to identify the threshold value needed for the breach of both the barriers. Un-injected animals were used for the normalization of the data.
3. One hour after inoculation all the rats including the un-injected ones were anaesthetized and dissected immediately to avoid any blood clotting; complete uterus and the brain were removed carefully in normal saline.
4. The fetal tissues; uterus, placenta, amniotic membrane and embryo were separated cautiously and collected in PBS to measure the weight of these organs separately.
5. Each fetal tissue was measured by weight and then homogenized in 200 μl of PBS (pH 7.4), the final volume was measured again and the mg/ml concentration was calculated.
6. The homogenized tissue was centrifuged at ~9,000 x g at 4 °C for 15 min and the clear supernatant was collected.
7. The absorbance of Evans blue dye was measured at OD590nm from the brain as well as fetal tissues associated with blood-brain barrier and placental barrier respectively.
8. The absorbance (OD) per mg of tissue weight was determined from the supernatant at 590 nm for the quantitative analysis of Evans blue dye.
9. Absorbance was considered as an average of four animals and the actual absorbance was calculated after normalizing the background values from the un-injected control set of tissues.
10. The breach of these blood barriers in the presence of the recombinant protein, whereas no breach was observed in the absence of the recombinant protein.
11. If the blood barriers breaches, the absorbance was found to be higher and the dye permeability was observed, whereas if the blood barrier is intact then the absorbance was comparatively lower and no permeability was observed for the dye.

Further details

This protocol is adapted from Chaturverdi et al. (1991); Singh et al. (2012) and Thumwood et al. (1988).

References

1. Chaturvedi, U. C., Dhawan, R., Khanna, M. and Mathur, A. (1991). Breakdown of the blood-brain barrier during dengue virus infection of mice. J Gen Virol 72 ( Pt 4): 859-866.
2. Singh, P., Agnihotri, S. K., Tewari, M. C., Kumar, S., Sachdev, M. and Tripathi, R. K. (2012). HIV-1 Nef breaches placental barrier in rat model. PLoS One 7(12): e51518.
3. Thumwood, C. M., Hunt, N. H., Clark, I. A. and Cowden, W. B. (1988). Breakdown of the blood-brain barrier in murine cerebral malaria. Parasitology 96 ( Pt 3): 579-589.

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