Abstract
BackgroundStore-Operated Calcium Entry (SOCE) is the major Ca2+ ion entry pathway in lymphocytes and is responsible of a severe combined immunodeficiency (SCID) when deficient. It has recently been observed or highlighted in other cell types such as myoblasts and neurons, suggesting a wider physiological role of this pathway. Whereas Orai1 protein is considered to be the channel allowing the SOCE in T cells, it is hypothesized that other proteins like TRPC could associate with Orai1 to form SOCE with different pharmacology and kinetics in other cell types. Unraveling SOCE cell functions requires specific effectors to be identified, just as dihydropyridines were crucial for the study of Ca2+ voltage-gated channels, or spider/snake toxins for other ion channel classes. To identify novel SOCE effectors, we analyzed the effects of 2-aminoethyl diphenylborinate (2-APB) and its analogues. 2-APB is a molecule known to both potentiate and inhibit T cell SOCE, but it is also an effector of TRP channels and endoplasmic reticulum Ca2+-ATPase.ResultsA structure-function analysis allowed to discover that the boron-oxygen core present in 2-APB and in the borinate ester analogues is absolutely required for the dual effects on SOCE. Indeed, a 2-APB analogue where the boron-oxygen core is replaced by a carbon-phosphorus core is devoid of potentiating capacity (while retaining inhibition capacity), highlighting the key role of the boron-oxygen core present in borinate esters for the potentiation function. However, dimesityl borinate ester, a 2-APB analogue with a terminal B-OH group showed an efficient inhibitory ability, without any potentiating capacity. The removal or addition of phenyl groups respectively decrease or increase the efficiency of the borinate esters to potentiate and inhibit the SOCE. mRNA expression revealed that Jurkat T cells mainly expressed Orai1, and were the more sensitive to 2-APB modulation of SOCE.ConclusionsThis study allows the discovery of new boron-oxygen core containing compounds with the same ability as 2-APB to both potentiate and inhibit the SOCE of different leukocyte cell lines. These compounds could represent new tools to characterize the different types of SOCE and the first step in the development of new immunomodulators.
Highlights
Store-Operated Calcium Entry (SOCE) is the major Ca2+ ion entry pathway in lymphocytes and is responsible of a severe combined immunodeficiency (SCID) when deficient
We show that the boron-oxygen core (BOC) is an absolute requirement for the potentiating ability of 2-aminoethyl diphenylborinate (2-APB), and that the number of phenyl rings is linked to the capacity of the molecule to potentiate/inhibit
Dual effects of borinate esters (2-APB, Diphenylborinic anhydride (DPBA) and 2-aminoethoxydibutyl borate (2-ABB)) on SOCE To visualize the SOCE, we treated the cells with 1 μM thapsigargin (TG) in a Ca2+-free medium during 10 min: this treatment allows the release of Ca2+ ions from the endoplasmic reticulum (ER) (Figure 2A), and subsequently the opening of the Store-Operated Channels (SOC)
Summary
Store-Operated Calcium Entry (SOCE) is the major Ca2+ ion entry pathway in lymphocytes and is responsible of a severe combined immunodeficiency (SCID) when deficient. It has recently been observed or highlighted in other cell types such as myoblasts and neurons, suggesting a wider physiological role of this pathway. When expressed in HEK293 cells (with STIM1), the three Orai are able to produce or increase the SOCE [7] Despite their high homology, only Orai is able to restore the SOCE of SCID T cells [4,8]. Several pharmaceutical companies have developed molecules acting on SOCE, no specific SOCE effectors have been characterized [11]
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