Abstract
Human Immunodeficiency Virus (HIV) infects cells from the immune system and has thus developed tools to circumvent the host immunity and use it in its advance. Dendritic cells (DCs) are the first immune cells to encounter the HIV, and being the main antigen (Ag) presenting cells, they link the innate and the adaptive immune responses. While DCs work to promote an efficient immune response and halt the infection, HIV-1 has ways to take advantage of their role and uses DCs to gain faster and more efficient access to CD4+ T cells. Due to their ability to activate a specific immune response, DCs are promising candidates to achieve the functional cure of HIV-1 infection, but knowing the molecular partakers that determine the relationship between virus and cell is the key for the rational and successful design of a DC-based therapy. In this review, we summarize the current state of knowledge on how both DC subsets (myeloid and plasmacytoid DCs) act in presence of HIV-1, and focus on different pathways that the virus can take after binding to DC. First, we explore the consequences of HIV-1 recognition by each receptor on DCs, including CD4 and DC-SIGN. Second, we look at cellular mechanisms that prevent productive infection and weapons that turn cellular defense into a Trojan horse that hides the virus all the way to T cell. Finally, we discuss the possible outcomes of DC-T cell contact.
Highlights
Human Immunodeficiency Virus (HIV) infects cells from the immune system, its main target being CD4+ T cells
PDCs are characterized by the expression of CD303 (CLEC4C), CD304, and CD123 (IL-3 receptor) [20]. Both plasmacytoid DCs (pDCs) and conventional” DCs (cDCs) display characteristic surface markers on their membrane whose expression levels correlate with their maturation/activation state: CD83 is a maturation marker; CD80 and CD86 are activation markers involved in Ag presentation and activation of T cells; and CCR7 is a chemokine receptor up-regulated in mature DCs (mDCs) implicated in migration to secondary lymphoid organs [21]
Unlike pDCs, which mainly respond to pathogens by secreting large amounts of IFN-α, cDCs are specialized antigen presenting cells (APCs) that serve as an important link between the innate immune system and the adaptive immune response
Summary
Human Immunodeficiency Virus (HIV) infects cells from the immune system, its main target being CD4+ T cells. The idea of modulating the immune system as a way to fight disease was first formulated in the late 19th century by William B Coley, and it is known as immunotherapy or biological therapy. The protocols for ex-vivo (in a laboratory) or in-vivo modulation of the patient’s immune cells are rapidly increasing in the era of personalized medicine Due to their role as antigen presenting cells (APCs), dendritic cells (DCs) are promising candidates to achieve the functional cure of HIV-1 infection. Once in the lymph nodes, they connect with naïve T cells through what is known as immune synapse, which serves to both present Ag and activate the lymphocyte If this process is successful, it triggers a specific immune response [8]. We summarize the current state of knowledge on DCs and their role and behavior during HIV-1 infection
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