Noam Vardi scite author profile

Current approaches to reducing the latent HIV reservoir entail first reactivating virus-containing cells to become visible to the immune system. A critical second step is killing these cells to reduce reservoir size. Endogenous cytotoxic T-lymphocytes (CTLs) may not be adequate because of cellular exhaustion and the evolution of CTL-resistant viruses. We have designed a universal CART cell platform based on CTLs engineered to bind a variety of broadly neutralizing anti-HIV antibodies. We show that this platform, convertibleCAR-T cells, effectively kills HIV-infected, but not uninfected, CD4 T cells from blood, tonsil, or spleen and only when armed with anti-HIV antibodies. convertibleCAR-T cells also kill within 48 h more than half of the inducible reservoir found in blood of HIV-infected individuals on antiretroviral therapy. The modularity of convertibleCAR-T cell system, which allows multiplexing with several anti-HIV antibodies yielding greater breadth and control, makes it a promising tool for attacking the latent HIV reservoir.

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Sequential Feedback Induction Stabilizes the Phosphate Starvation Response in Budding Yeast

Vardi

Levy

Gurvich

et al. 2014

Cell Reports

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Depletion of essential nutrients triggers regulatory programs that prolong cell growth and survival. Starvation-induced processes increase nutrient transport, mobilize nutrient storage, and recycle nutrients between cellular components. This leads to an effective increase in intracellular nutrients, which may act as a negative feedback that downregulates the starvation program. To examine how cells overcome this potential instability, we followed the transcription response of budding yeast transferred to medium lacking phosphate. Genes were induced in two temporal waves. The first wave was stably maintained and persisted even upon phosphate replenishment, indicating a positive feedback loop. This commitment was abolished after 2 hr with the induction of the second expression wave, coinciding with the reduction in cell growth rate. We show that the overall temporal stability of the expression response depends on the sequential pattern of gene induction. Our results emphasize the key role of gene expression dynamics in optimizing cellular adaptation.

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Budding Yeast Escape Commitment to the Phosphate Starvation Program Using Gene Expression Noise

et al. 2013

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Cells must rapidly adapt to changes in nutrient availability. In budding yeast, limitation of phosphate rapidly induces the expression of the Pho regulon genes [1-4]. This starvation program depends on the transcription factor Pho4, which translocates to the nucleus within minutes when cells are transferred to a low-phosphate medium [5]. Contrasting its rapid induction, we report that the Pho regulon can remain induced for dozens of generations in cells transferred back to high phosphate levels. For example, about 40% of the cells that were starved for 2 hr maintained PHO4-dependent expression for over eleven generations of growing in high phosphate. This commitment to activation of the Pho regulon depends on two feedback loops that reduce internal phosphate, one through induction of the PHM1-4 genes that increase phosphate storage in the vacuoles and the second by induction of SPL2, which reduces incoming flux by inhibiting low-affinity transporters. Noise in SPL2 expression allows stochastic repression of the Pho regulon in committed cells growing at high phosphate, as we demonstrate using a novel method, DAmP multiple copy array (DaMCA), that reduces intrinsic noise in gene expression while maintaining mean abundance. Commitment is an integral part of the dual-transporter motif that helps cells prepare for nutrient depletion.

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Feedback-mediated signal conversion promotes viral fitness

Vardi

Chaturvedi

Weinberger

2018

Proc. Natl. Acad. Sci. U.S.A.

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A fundamental signal-processing problem is how biological systems maintain phenotypic states (i.e., canalization) long after degradation of initial catalyst signals. For example, to efficiently replicate, herpesviruses (e.g., human cytomegalovirus, HCMV) rapidly counteract cell-mediated silencing using transactivators packaged in the tegument of the infecting virion particle. However, the activity of these tegument transactivators is inherently transient-they undergo immediate proteolysis but delayed synthesis-and how transient activation sustains lytic viral gene expression despite cell-mediated silencing is unclear. By constructing a two-color, conditional-feedback HCMV mutant, we find that positive feedback in HCMV's immediate-early 1 (IE1) protein is of sufficient strength to sustain HCMV lytic expression. Single-cell time-lapse imaging and mathematical modeling show that IE1 positive feedback converts transient transactivation signals from tegument pp71 proteins into sustained lytic expression, which is obligate for efficient viral replication, whereas attenuating feedback decreases fitness by promoting a reversible silenced state. Together, these results identify a regulatory mechanism enabling herpesviruses to sustain expression despite transient activation signals-akin to early electronic transistors-and expose a potential target for therapeutic intervention.

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Noam Vardi

Attacking Latent HIV with convertibleCAR-T Cells, a Highly Adaptable Killing Platform

Sequential Feedback Induction Stabilizes the Phosphate Starvation Response in Budding Yeast

Budding Yeast Escape Commitment to the Phosphate Starvation Program Using Gene Expression Noise

Feedback-mediated signal conversion promotes viral fitness

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