Acute molecular response of mouse hindlimb muscles to chronic stimulation.

Stimulation of the mouse hindlimb via the sciatic nerve was performed for a 4-h period to investigate acute muscle gene activation in a model of muscle phenotype conversion. Initial force production (1.6 +/- 0.1 g/g body wt) declined 45% within 10 min and was maintained for the remainder of the experiment. Force returned to initial levels upon study completion. An immediate-early growth response was present in the extensor digitorum longus (EDL) muscle (FOS, JUN, activating transcription factor 3, and musculoaponeurotic fibrosarcoma oncogene) with a similar but attenuated pattern in the soleus muscle. Transcript profiles showed decreased fast fiber-specific mRNA (myosin heavy chains 2A and 2B, fast troponins T(3) and I, alpha-tropomyosin, muscle creatine kinase, and parvalbumin) and increased slow transcripts (myosin heavy chain-1beta/slow, troponin C slow, and tropomyosin 3y) in the EDL versus soleus muscles. Histological analysis of the EDL revealed glycogen depletion without inflammatory cell infiltration in stimulated versus control muscles, whereas ultrastructural analysis showed no evidence of myofiber damage after stimulation. Multiple fiber type-specific transcription factors (tea domain family member 1, nuclear factor of activated T cells 1, peroxisome proliferator-activated receptor-gamma coactivator-1alpha and -beta, circadian locomotor output cycles kaput, and hypoxia-inducible factor-1alpha) increased in the EDL along with transcription factors characteristic of embryogenesis (Kruppel-like factor 4; SRY box containing 17; transcription factor 15; PBX/knotted 1 homeobox 1; and embryonic lethal, abnormal vision). No established in vivo satellite cell markers or genes activated in our parallel experiments of satellite cell proliferation in vitro (cyclins A(2), B(2), C, and E(1) and MyoD) were differentially increased in the stimulated muscles. These results indicated that the molecular onset of fast to slow phenotype conversion occurred in the EDL within 4 h of stimulation without injury or satellite cell recruitment. This conversion was associated with the expression of phenotype-specific transcription factors from resident fiber myonuclei, including the activation of nascent developmental transcriptional programs.

Deletion of Tip30 leads to rapid immortalization of murine mammary epithelial cells and ductal hyperplasia in the mammary gland.

Transformation of mammary epithelial cells (MECs) from the normal to the neoplastic stage requires the dysregulation of tumor suppressor genes and proto-oncogenes. Tip30 is a tumor suppressor that can inhibit estrogen receptor-mediated transcription in MECs, but its role in MEC proliferation remains unknown. Here, we show that deleting the Tip30 gene leads to ductal hyperplasia in mouse mammary glands early in life and extensive mammary hyperplasia with age. Tip30(-/-) mammary glands transplanted into wild-type mammary fat pads also display mammary trees with extensive ductal hyperplasia. Strikingly, Tip30 deletion promotes proliferation of primary MECs and results in rapid immortalization of MECs in vitro relative to wild-type cells. Gene array analysis identified significant increases in the expression of mammary epithelial growth factors Wisp2 and Igf-1 in Tip30(-/-) cells. Knockdown of either Wisp2 or Igf-1 using short interfering RNA dramatically inhibited proliferation of Tip30(-/-) cells. Together, these results suggest that Tip30 is an intrinsic and negative regulator of MEC proliferation partly through the inhibition of Wisp2 and Igf-1 expression, and its absence in the mammary gland may predispose MECs to neoplastic transformation.

Role of epidermal growth factor in the acquisition of ovarian steroid hormone responsiveness in the normal mouse mammary gland.

The purpose of the present studies was to investigate the role of epidermal growth factor (EGF) in the acquisition of estrogen (E) and progestin (P) responsiveness in the mouse mammary gland in vivo. Using the Elvax 40P implant technique to introduce bioactive molecules directly into the mammary gland to produce a localized effect, we have made the novel observation that EGF implanted into glands of pubertal mice followed by E treatment resulted in the precocious acquisition of E-inducible progesterone receptors (PR). In sexually mature mice, EGF implants alone were able to increase PR. A neutralizing antibody specific for EGF blocked E-dependent stimulation of end-bud development and PR induction. Furthermore, the antiestrogen ICI 182,780 blocked the EGF-induced stimulation end-buds and PR induction, indicating that these EGF effects are mediated via estrogen receptors (ER). Immunohistochemical analysis showed that the endogenous EGF content of mammary glands of mature mice was higher than pubertal mice, that E implants caused a localized increase in mammary gland EGF content in both pubertal and mature mice, and that in mature mice E caused an increase in stromal cell EGF content. We have previously shown that the acquisition of E-inducible PR can be modulated by mammary stroma, and the present results indicate that mammary stroma could modulate hormonal responsiveness through control of local growth factor concentration. Taken together, these results provide evidence that E-dependent responses of mouse mammary gland in vivo, such as end-bud proliferation and PR regulation, may be mediated by EGF through an ER-dependent mechanism.

Characterization of insulin-like growth factor binding protein-1 kinases from human hepatoma cells.

The phosphorylation of insulin-like growth factor binding protein-I (IGFBP-1) alters its binding affinity for insulin-like growth factor I (IGF-I) and thus regulates the bioavailability of IGF-I for binding to the IGF-I receptor. The kinase(s) responsible for the phosphorylation of IGFBP-1 has not been identified. This study was designed to characterize the IGFBP-1 kinase activity in HepG2 human hepatoma cells, a cell line that secretes IGFBP-1 primarily as phosphorylated isoforms. IGFBP-1 kinase activity was partially purified from detergent extracts of the cells by phosphocellulose chromatography and gel filtration. Two kinases of approximate M(r) 150,000 (peak I kinase) and M(r) 50,000 (peak II kinase) were identified. Each kinase phosphorylated IGFBP-1 at serine residues that were phosphorylated by intact HepG2 cells. The kinases were distinct based on their differential sensitivity to inhibition by heparin (IC50 = 2.5 and 16.5 micrograms/ml, peak I and II kinase, respectively) and inhibition by the isoquinoline sulfonamide CKI-7 (IC50 = 50 microM and 100 microM, peak I and II kinase, respectively). In addition, a tenfold molar excess of nonradioactive GTP relative to [gamma-32P]ATP lowered the incorporation of 32P into IGFBP-1 by 80% when the reaction was catalyzed by the peak I kinase, whereas GTP had no effect on the reaction catalyzed by the peak II kinase. In the presence of polylysine, IGFBP-1 was radiolabeled by the partially purified kinase activity when [gamma-32P]GTP served as the phosphate donor indicating the presence of casein kinase II activity. Furthermore, IGFBP-1 was phosphorylated by purified casein kinase I and casein kinase II at sites phosphorylated by the peak I and II kinases. Our data suggest that at least two kinases could be responsible for the phosphorylation of IGFBP-1 in intact HepG2 cells and that the kinases are related to the casein kinase family of protein kinases.

Role of insulin-like growth factor binding proteins in the control of IGF actions.

The insulin-like growth factor binding proteins have been shown to modify IGF actions. IGFBP-5 binds to extracellular matrix (ECM) and its ability to potentiate IGF activity is dependent upon the amount that is ECM associated. To determine the specific regions of IGFBP-5 that are required for ECM association, site directed mutagenesis has been used to prepare several forms of IGFBP-5. Mutants that have had the amino acids between positions 201 and 218 altered have been useful. Mutation of the lysine 211 resulted in no change in the affinity of IGFBP-5 for ECM or heparin Sepharose; however, it resulted in a major reduction in affinity for IGF-I following heparin binding. Other mutations which disrupted heparin binding also resulted in loss of this affinity shift. Most distruptive were mutations of amino acids 211, 214, 217 and 218 and 202, 206 and 207. Mutation of residues 201 plus 202 had some effect, but substitution for 207, 211, 217 and 218 had no effect. When binding to intact ECM was analyzed, similar results were obtained. This suggests that amino acids 202, 206 and 214 are definitely involved in heparin and ECM binding. When binding to proteoglycans such as tenascin and heparin sulfate proteoglycan was analyzed, similar results were obtained. IGFBP-5 also binds to other proteins in ECM, including type IV collagen and plasminogen activator inhibitor-I. Specific antisera for plasminogen activator inhibitor-1 can coprecipitate IGFBP-5. IGFBPs are degraded by specific proteases. Three proteases that degrade IGFBP-2, -4 and -5 have been characterized. They are serine proteases that cleave these proteins at basic residues. Although several well characterized serine proteases cleave IGFBP-4 or -5, the proteases in cell conditioned media appear to be distinct.

Cytosolic lipoprotein particles from milk-secreting cells contain fatty acid synthase and interact with endoplasmic reticulum.

Part of the fatty acid synthase in cytosol from mammary glands of lactating rats was in a complex with other proteins and with lipids. This complex eluted in the void volume from a gel filtration column with an exclusion limit of 5,000,000, and remained in a 3% polyacrylamide stacking gel during electrophoresis under nondenaturing conditions. Fatty acid synthase-containing lipoprotein particles ranged in density from 1.07 to 1.16 g/ml, and varied in protein to lipid ratios. Similar fatty acid synthase particles were present also in cytosol from cow mammary gland. Butyrophilin, xanthine oxidase, and a group of small GTP-binding proteins that included ADP-ribosylation factor, were identified as constituents of the lipoprotein complex. This complex interacted with endoplasmic reticulum and with lipid droplets in cell-free incubation mixtures. In ultrastructure fatty acid synthase-containing lipoprotein particles were homogeneous in appearance, but were heterogeneous in size, with apparent diameters of 40 to 170 nm. Immunocytochemically, antigen recognized by antibodies to fatty acid synthase were found to be present in these particles and on endoplasmic reticulum. Lipoprotein complexes bound to specific polypeptides of endoplasmic reticulum.

Low molecular mass GTP-binding proteins are secreted from mammary epithelial cells in association with lipid globules.

Secretion of milk lipid globules is achieved through encapsulation of triacylglycerol-rich lipid droplets in a specialized region of apical plasma membrane of mammary epithelial cells. A class of low molecular mass GTP-binding proteins were associated tightly with the lipid globule membrane, and these proteins appeared to change from peripheral to integral membrane proteins during intracellular growth and transit of lipid globule precursors. Inclusion of GTP or GTP gamma S in incubation medium stimulated secretion of lipids from primary cultures of permeabilized rat mammary epithelial cells. Six polypeptides with molecular masses between 28 and 21 kDa were detected by ability to bind GTP gamma S following separation of lipid-globule-associated proteins by SDS-PAGE and transblotting onto nitrocellulose. That all of these polypeptides were distinct immunologically from the archetype ras was evident from lack of immunoreactivity with p21 ras G-protein monoclonal antibody in Western blots. This monoclonal antibody bound to a 23 kDa polypeptide of lipid droplets that was not detected with the GTP gamma S binding assay. A 25 kDa component of milk lipid globules was a potent substrate for ADP-ribosylation by botulinum toxin C3, but cholera toxin was much less effective, suggesting that this component may belong to the rac class of G-proteins. The 21 kDa component was related immunologically to ADP ribosylation factor.

Insulin-like growth factor-I and human lung fibroblast-derived insulin-like growth factor-I stimulate the proliferation of human lung carcinoma cells in vitro.

The concentration of insulin-like growth factor I (IGF-I) in tissue taken from human non-small cell lung carcinomas (non-SCLC) is 1.4- to 7-fold higher than in the surrounding normal lung tissue, and thus, IGF-I may be involved in the growth of non-SCLC. We report here that non-SCLC cell lines (A549, A427, SK-LU-1) expressed the IGF-I receptor protein, and IGF-I stimulated the proliferation of low-density plated (2000 cells/cm2 growth area) carcinoma cells by 1.6- to 3-fold above control after a 4-day incubation period under serum-free conditions (A549, A427) or in the presence of 0.25% serum (SK-LU-1). Immunoblot data indicated that IGF-I was not secreted by the lung carcinoma cells; however, IGF-I-like proteins were present in the serum-free medium conditioned by human adult lung fibroblasts (CCD-19Lu). The secretion of the immunoreactive IGF-I-like protein was dependent on the passage level of the fibroblasts. At least one of the IGF-I-like factors promoted the serum-free growth of A549 cells (2-fold increase in cell number over control after 4 days) and stimulated a 3-fold increase in the tyrosine kinase activity of detergent-solubilized IGF-I receptors from A549 cells. Both stimulatory effects were neutralized by an anti-IGF-I antibody, suggesting that the fibroblast-derived factor mediated its activity via the IGF-I receptor. Our data indicate that lung fibroblast-derived IGF-I may stimulate the growth of non-SCLC in vivo.