Abstract Body: Keeping blood pressure under control is a challenge in hypertension treatment because high blood pressure quickly returns with a momentary lapse in treatment or a high-salt diet. We have previously reported the CD8+ T cells (CD8Ts) in the kidney can drive aberrant sodium handling to aggravate blood pressure. Recently, our new findings suggest that these CD8Ts remain long-term within the kidney. Here, we propose these CD8Ts have developed into a resident memory (Trm) population with the aid of TGFβ signaling, and this residency continually aggravates and leads to the recurrence of hypertension.

To explore this hypothesis, we utilized two mouse models of hypertension, including a classic DOCA-salt model and a novel Angiotensin II (Ang II) induced salt memory model, with continuous blood pressure monitored by radiotelemetry. In the Ang II-induced salt memory model, the mice were administered Ang II and high salt for a week before a resting period to restore normal blood pressure. Thereafter, the mice were given a second high salt challenge to model the high salt-driven recurrence of hypertension. Mouse strains include both wild-type (WT) and a T-cell specific TGFβRII KO (Tsp-TGFβR KO), which has T cells unable to develop into Trm due to the reliance of Trm on TGFβ signaling. T cells were analyzed with flow cytometry.

In the DOCA-salt model, WT mice developed a significant CD8Trm population within the kidney. In contrast, TSP-TGFβR KO mice, which lack the ability to develop Trm, had an attenuated development of hypertension with DOCA-salt treatment. Testing the capability for hypertension to recur, both WT and Tsp-TGFβR KO mice experienced a similar degree of hypertension with Ang II-salt treatment. However, only the WT had a significant expansion of Trm and demonstrated the clinical manifestation of recurring hypertension with the rapid increase of blood pressure with a high salt challenge. Isolating the T cells from the kidneys confirmed that the significant CD8Trm population development in the WT was not present in the Tsp-TGFβR KO.

In summary, our findings suggest that the memory T cell population developed in the kidney during hypertension instills a perpetual memory for salt sensitivity in hypertension. Without the ability to develop this memory population, mice are protected against this recurrence of high-salt-induced hypertension.