Phosphorylation pattern of a 25 Kdalton stress protein from rat myoblasts

Hsp27 is a mediator of sustained smooth muscle contraction in response to bombesin

We have identified the low MW 27 kD heat shock protein as a major phosphoprotein constituent of smooth muscle and have investigated its potential role in agonist induced smooth muscle contraction. The neuropeptides bombesin and substance P, which are present in neurons of the anorectal region, induce contraction of isolated smooth muscle cells from this region by activating different intracellular pathways. Substance P-induced contraction is 1,4,5-inositol trisphosphate (IP3)/calmodulin dependent, while contraction induced by bombesin is mediated by a protein kinase C (PKC)-dependent pathway. The sustained contraction induced by bombesin or exogenous PKC was blocked by preincubation of cells with monoclonal antibodies to hsp27, while the transient contraction induced by substance P or IP3 was unaffected by the antibodies. Preincubation with isotype matched control antibodies had no inhibitory effect on contraction induced in response to the agents used. These data support a novel role for hsp27 in the non calmodulin mediated sustained contraction induced by bombesin or PKC.

The 29-kDa proteins phosphorylated in thrombin-activated human platelets are forms of the estrogen receptor-related 27-kDa heat shock protein

Thrombin plays a critical role in platelet activation, hemostasis, and thrombosis. Cellular activation by thrombin leads to the phosphorylation of multiple proteins, most of which are unidentified. We have characterized several 29-kDa proteins that are rapidly phosphorylated following exposure of intact human platelets to thrombin. A murine monoclonal antibody raised to an unidentified estrogen receptor-related 29-kDa protein selectively recognized these proteins as well as a more basic, unphosphorylated 27-kDa protein. Cellular activation by thrombin led to a marked shift in the proportion of protein from the 27-kDa unphosphorylated form to the 29-kDa phosphoprotein species. Using this antibody, we isolated and sequenced a human cDNA clone encoding a protein that was identical to the mammalian 27-kDa heat shock protein (HSP27), a protein of uncertain function that is known to be phosphorylated to several forms and to be transcriptionally induced by estrogen. The 29-kDa proteins were confirmed to be phosphorylated forms of HSP27 by immunoprecipitation studies. Thus, the "estrogen receptor-related protein" is HSP27, and the three major 29-kDa proteins phosphorylated in thrombin-activated platelets are forms of HSP27. These data suggest a role for HSP27 in the signal transduction events of platelet activation.

Enhanced expression of a 27 kD protein during diethylnitrosamine-induced hepatocarcinogenesis in rats

Patterns of neosynthesized cellular proteins from normal rat liver and from diethylnitrosamine-induced neoplastic nodules and hepatocellular carcinomas were analyzed by radiolabeling and fluorography of two-dimensional gel electrophoregrams. Three proteins exhibited a significant and reproducible increase in labeling intensity in the nodules (n = 5) and in the tumors (n = 10) as compared to the normal liver (n = 10). Two of those proteins (MW 31 and 33 kD, pI of 5.25, 5.15 respectively) are secreted proteins and as yet, we have no clue as to their nature. The third one is an intracellular protein of 27 kD pI 5.5. Several similarities in physico-chemical properties (MW, pI, phosphorylated state, low methionine content) indicate that this 27 kD protein might be the 27 kD heat shock protein (27 HSP). This is further supported by our observation that the cadmium-induced 27 HSP comigrates with our 27 kD protein.

Identification of two related markers for common acute lymphoblastic leukemia as heat shock proteins

By direct analysis of the polypeptide constituents of leukemic cells, we have previously detected several polypeptides that are restricted in their expression to acute lymphoblastic leukemia (ALL). In this study, we provide evidence that two polypeptides designated L2 and L4 are structurally related and represent novel markers for common ALL. Partial amino acid sequence analysis did not uncover differences between L2 and L4. The sequences obtained correspond to a previously cloned human gene designated hsp 27 that is expressed, following heat shock treatment, in a variety of cells. 32Pi incorporation studies indicate that L4 is an unphosphorylated form and L2 is a phosphorylated form of hsp27. The two forms were inducible by heat shock in leukemic and nonleukemic lymphoid cells. Thus, in acute leukemia, the common ALL subtype is uniquely characterized by the constitutive expression of a polypeptide that represents a major cellular phosphoprotein.

Expression of the 31-kD stress protein in rat myoblasts and hepatocytes

Rat tissue cultures cells respond to stress by inducing the synthesis of about 20 proteins, including two low-molecular-weight species of about 31 kD and 27 kD. We have cloned a cDNA for the 31-kD protein. This protein is induced in myoblasts and hepatoma cells in response to a 43 degrees C heat shock, or exposure to sodium arsenite or cadmium chloride salts. Furthermore, this protein is superinduced in hepatoma cells conditioned to grow in cadmium and zinc salts when they are exposed to a standard sodium arsenite stress. Induction of the gene encoding the 31-kD protein has been characterized as follows: (i) Transcripts accumulate maximally with similar kinetics when myoblasts are induced with either heat shock or sodium arsenite; (ii) accumulation of transcripts decays to preinduction levels within 4 hr of a heat shock, but requires more than 8 days after sodium arsenite stress; (iii) basal levels of transcript are reduced when myoblasts are cultured in the presence of steroid hormones; and (iv) stress induction is virtually abolished once myoblasts have differentiated.

The 27,000 daltons stress proteins are phosphorylated by protein kinase C during the tumor promoter-mediated growth inhibition of human mammary carcinoma cells

Phorbol-12-myristate-13-acetate (PMA) inhibited growth of human mammary carcinoma cell lines and increased mainly the phosphorylation of two cytosolic phosphoproteins (pp) of 27 kD with isoelectric points of 5.5 (pp27a) and 5.0 (pp27b). The time course of pp27 phosphorylation closely paralleled the rapid PMA-induced subcellular redistribution of protein kinase C (PKC) activity and its subsequent down regulation. Addition of phospholipase C and fetal calf serum to intact cells or purified PKC to a cell free system enhanced the phosphorylation of both pp27 suggesting that the two polypeptides are specific substrates for PKC. Exposure of human mammary carcinoma cells to stress inducers such as arsenite or cadmium increased the 32P incorporation of both pp27 to an extent comparable to PMA. The increased phosphorus content following stress was rather due to a higher rate of synthesis of both pp27 than to a higher phosphorylation state of these polypeptides as determined by [3H]-leucine labeling. These results indicate that the major substrates of PKC, phosphorylated during the PMA-induced growth inhibition of human mammary carcinoma cells, are members of the stress protein family, suggesting a new possible function for these proteins.