Surf4 modulates STIM1-dependent calcium entry
Y Fujii, M Shiota, Y Ohkawa, A Baba… - Biochemical and …, 2012 - Elsevier
Biochemical and biophysical research communications, 2012•Elsevier
Store-operated Ca2+ entry (SOCE) is crucial for various physiological responses in immune
cells. Although it is known that STIM1 relocates into discrete puncta juxtaposed to the
plasma membrane to initiate SOCE, the machinery modulating the function of STIM1
remains unclear. We explored to find its modulators using affinity purification for STIM1-
binding proteins and identified surfeit locus protein 4 (Surf4). Surf4 associated with STIM1 in
the endoplasmic reticulum. Deletion of Surf4 in DT40 B cells resulted in marked increase of …
cells. Although it is known that STIM1 relocates into discrete puncta juxtaposed to the
plasma membrane to initiate SOCE, the machinery modulating the function of STIM1
remains unclear. We explored to find its modulators using affinity purification for STIM1-
binding proteins and identified surfeit locus protein 4 (Surf4). Surf4 associated with STIM1 in
the endoplasmic reticulum. Deletion of Surf4 in DT40 B cells resulted in marked increase of …
Store-operated Ca2+ entry (SOCE) is crucial for various physiological responses in immune cells. Although it is known that STIM1 relocates into discrete puncta juxtaposed to the plasma membrane to initiate SOCE, the machinery modulating the function of STIM1 remains unclear. We explored to find its modulators using affinity purification for STIM1-binding proteins and identified surfeit locus protein 4 (Surf4). Surf4 associated with STIM1 in the endoplasmic reticulum. Deletion of Surf4 in DT40 B cells resulted in marked increase of SOCE and facilitation of STIM1 clustering upon store-depletion. These findings suggest the modulatory function of Surf4 for STIM1-mediated SOCE.
Elsevier