The impaired glucose-induced insulin release in type 2 diabetes mellitus may be accounted for by reduced B-cell ATP/ADP ratio or decreased phosphorylation of proteins regulating exocytosis of insulin. This, in turn, could be due to enhanced phosphatase activity. Using in situ hybridization techniques to assess the expression of 11 different phosphotyrosine phosphatases (PTPases), known to be present in the B-cells, overexpression by approximately 60% of PTPsigma (also known as LAR-PTP2 or PTP NE-3) was demonstrated in pancreatic islets and liver of spontaneously type 2 diabetic Goto-Kakizaki (GK) rats. In agreement with these findings Western blot of islet lysates, using a polyclonal PTPsigma antiserum, showed increased amounts of the protein in GK relative to control rat islets. Exposure of isolated islets for 20 h to 5 muM antisense to PTPsigma, composed of an antisense PNA sequence of 15 bases linked to the cell penetrating peptide transportan, increased glucose-induced insulin secretion from GK rat islets, but not from control islets. In parallel, the amounts of the phosphatase decreased. In conclusion, increased expression of PTPsigma may be of pathogenetic significance for the defective insulin secretion in GK rat islets. (C) 2002 Elsevier Science (USA).