In the present paper we have shown evidence for a significant increase of type II sPLA(2) activity in A-LAK. cells. The A-LAK-mediated cytotoxicity against YAC-1 target cells was strongly inhibited by two inhibitors of sPLA(2), p-BPB and mepacrine, suggesting the involvement of this enzyme in the lytic mechanism of A-LAK. On the other hand, stimuli such as A23187 ionophore and TPA, which were able to induce in control cells an increased AA release, faded to cause this effect in IL-2-treated cells, suggesting that PLA(2) was not active in these cells. Thus, we analyzed the levels of calpactin I, which is considered to be involved in the down-regulation of PLA(2) activity. HrIL-2 treatment led to an increased expression of calpactin I at both the RNA and the protein level. A substantial portion of calpactin I was associated with the external surface of A-LAK and was able to exert a strong inhibitory effect on a purified porcine pancreatic PLA(2) activity in vitro. Our results suggest that the role of calpactin I could be relevant to regulate PLA(2) activity, and to protect the effector cells against a possible toxic effect which this enzyme could exert if present at high levels.
Phospholipase A2 activity and calpactin I levels in rat lymphokine activated killer cells: correlation with the cytotoxic activity / Cifone, M. G.; Cironi, L.; Roncaioli, P.; Martinotti, Stefano; Toniato, E.; Cilenti, L.; Botti, D.; Solito, E.; Parente, L.; Santoni, Angela. - In: CELLULAR IMMUNOLOGY. - ISSN 0008-8749. - STAMPA. - 170:(1996), pp. 274-282. [10.1006/cimm.1996.0161]
Phospholipase A2 activity and calpactin I levels in rat lymphokine activated killer cells: correlation with the cytotoxic activity.
MARTINOTTI, STEFANO;SANTONI, Angela
1996
Abstract
In the present paper we have shown evidence for a significant increase of type II sPLA(2) activity in A-LAK. cells. The A-LAK-mediated cytotoxicity against YAC-1 target cells was strongly inhibited by two inhibitors of sPLA(2), p-BPB and mepacrine, suggesting the involvement of this enzyme in the lytic mechanism of A-LAK. On the other hand, stimuli such as A23187 ionophore and TPA, which were able to induce in control cells an increased AA release, faded to cause this effect in IL-2-treated cells, suggesting that PLA(2) was not active in these cells. Thus, we analyzed the levels of calpactin I, which is considered to be involved in the down-regulation of PLA(2) activity. HrIL-2 treatment led to an increased expression of calpactin I at both the RNA and the protein level. A substantial portion of calpactin I was associated with the external surface of A-LAK and was able to exert a strong inhibitory effect on a purified porcine pancreatic PLA(2) activity in vitro. Our results suggest that the role of calpactin I could be relevant to regulate PLA(2) activity, and to protect the effector cells against a possible toxic effect which this enzyme could exert if present at high levels.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.