Stimulation of phospholipase C by guanine-nucleotide-binding protein beta gamma subunits.

We have previously shown that soluble fractions obtained from human HL-60 granulocytes contain a phospholipase C which is markedly stimulated by the stable GTP analogue guanosine 5'-[3-O-thio]triphosphate (Camps, M., Hou, C., Jakobs, K. H. and Gierschik, P. (1990) Biochem. J. 271, 743-748]. To investigate whether this stimulation was due to a soluble alpha subunit of a heterotrimeric guanine-nucleotide-binding protein or a soluble low-molecular-mass GTP-binding protein, we have examined the effect of purified guanine-nucleotide-binding protein beta gamma dimers on the phospholipase-C-mediated formation of inositol phosphates by HL-60 cytosol. We found that beta gamma subunits, purified from bovine retinal transducin (beta gamma t), markedly stimulated the hydrolysis of phosphatidylinositol 4,5-bisphosphate by this phospholipase C preparation. The stimulation of phospholipase C by beta gamma t was not secondary to a phospholipase-A2-mediated generation of arachidonic acid, was prevented by the GDP-liganded transducin alpha subunit and was additive to activation of phospholipase C by guanosine 5'-[3-O-thio]triphosphate. Beta gamma t also stimulated soluble phospholipase C from human and bovine peripheral neutrophils, as well as membrane-bound, detergent-solubilized phospholipase C from HL-60 cells. Stimulation of soluble HL-60 phospholipase C was not restricted to beta gamma t, but was also observed with highly purified beta gamma subunits from bovine brain. Fractionation of HL-60 cytosol by anion-exchange chromatography revealed the existence of at least two distinct forms of phospholipase C in HL-60 granulocytes. Only one of these forms was sensitive to stimulation by beta gamma t, demonstrating that stimulation of phospholipase C by beta gamma subunits is isozyme specific. Taken together, our results suggest that guanine-nucleotide-binding protein beta gamma subunits may play an important and active role in mediating the stimulation of phospholipase C by heterotrimeric guanine-nucleotide-binding proteins.     

Activation of signal-transducing guanine-nucleotide-binding regulatory proteins by guanosine 5'-[gamma-thio]triphosphate. Information transfer by intermediately thiophosphorylated beta gamma subunits

Signal-transducing guanine-nucleotide-binding regulatory proteins (G proteins) are heterotrimers, composed of the nucleotide-binding alpha subunit and a beta gamma dimer. The influence of beta gamma dimer preparations of the retinal G protein transducin (TD) was studied on formylpeptide-receptor--G-protein interactions in membranes of differentiated HL 60 cells. For this, TD was prepared from bovine rod outer segment (ROS) membranes with either GTP or its analogs, guanosine 5'-[gamma-thio]triphosphate (GTP[S]) and guanosine 5'-[beta gamma-imino]triphosphate (Gpp[NH]p). After removal of free nucleotides, TD beta gamma was separated from TD alpha and its function analyzed. Addition of TD beta gamma isolated from TD prepared with GTP[S] (TD beta gamma GTP[S]) to HL 60 membranes abolished high-affinity binding of fMet-Leu-[3H]Phe (fMet, N-formylmethionine) to its receptor. In contrast, TD beta gamma isolated from TD prepared with GTP (TD beta gamma GTP), boiled TD beta gamma GTP[S] and TD alpha prepared with GTP[S] had no or only slight effects. The inhibitory effect of TD beta gamma GTP[S] on fMet-Leu-[3H]Phe receptor binding was potentiated by GDP at low concentrations but not by GTP[S]. Furthermore, TD beta gamma GTP[S], but not TD beta gamma GTP or TD beta gamma isolated from TD prepared with Gpp[NH]p (TD beta gamma Gpp[NH]p), prevented fMet-Leu-Phe-stimulated binding of [35S]GTP[S] to G proteins in HL 60 membranes, measured in the presence of GDP. When TD beta gamma GTP was incubated with GTP [S] and TD-depleted illuminated ROS membranes, and subsequently separated from the membranes and free GTP[S], this TD beta gamma GTP, similar to TD beta gamma GTP[S], abolished high-affinity binding of fMet-Leu-[3H]Phe to its receptor, fMet-Leu-Phe-stimulated binding of [35S]GTP[S], and fMet-Leu-Phe-stimulated GTP hydrolysis in HL 60 membranes. Inhibition of [35S]GTP[S] binding by TD beta gamma was not seen in the presence of the metabolically stable GDP analog, guanosine 5'-[beta-thio]diphosphate. In order to obtain an insight into the modification of TD beta gamma apparently caused by GTP[S], and into its mechanism of action in HL 60 membranes, TD, TD alpha and TD beta gamma, all prepared in the presence of GTP, were incubated with [35S]GTP[S] and TD-depleted illuminated ROS membranes. Fluorographic analysis of the supernatant proteins revealed 35S labelling of the beta band of the G protein. When apparently thiophosphorylated TD beta gamma was incubated with [3H]GDP in the presence of HL 60 membranes, [3H]GTP[S] was rapidly formed.(ABSTRACT TRUNCATED AT 400 WORDS)     

Characterization of small-molecular-mass guanine-nucleotide-binding regulatory proteins in insulin-secreting cells and PC12 cells.

The distribution of ras-related small-molecular-mass guanine-nucleotide-binding regulatory proteins (SMG) of two insulin-secreting cell lines, RINm5F and HIT-T15, and of a catecholamine-secreting cell line, PC12, have been studied using different techniques. About ten such proteins were detected by [32P]GTP binding after two-dimensional gel electrophoresis and transfer to nitrocellulose membranes. In insulin-secreting cells, rho protein(s) that cannot be detected with the GTP-binding technique were identified by ADP ribosylation with Clostridium botulinum C3 exoenzyme. After subcellular fractionation, SMG displayed specific distributions. The insulin-secreting cell line RINm5F and the catecholamine-secreting cell line PC12 expressed a similar set of these proteins with analogous localization. [32P]GTP binding analysis revealed that at least seven SMG were associated with the secretory granule enriched fraction of RINm5F cells and with the fraction containing dense secretory granules from PC12 cells, proteins of 27 (pI 5.4), 23 (pI 6.8) and 25 kDa (pI 6.7) being the most abundant. These proteins were present in a highly purified granule fraction of a solid rat insulinoma. The 23 kDa (pI 6.8) and 25 kDa (pI 6.7) proteins, but not the protein migrating at 27 kDa (pI 5.4), were detected in the corresponding fraction from HIT-T15 cells. A monoclonal antibody directed against smg25A/rab3A recognized the SMG in secretory granules migrating at 25 kDa (pI 6.7) and 27 kDa (pI 5.4). This antibody also revealed the presence of such protein(s) in homogenates of rat pancreatic islets. During stimulation of insulin secretion of either intact or permeabilized cells, there was no detectable redistribution to the cytosol or to the plasma membrane of the major proteins located on secretory granules. In view of the invariable presence of at least two of the SMG in granules of secretory cells, these proteins are good candidates for regulation of hormone secretion.     

Localization of catalytic and regulatory subunits of cyclic AMP-dependent protein kinases in mitochondria from various rat tissues.

Observation and quantification of the catalytic subunit C of cyclic AMP-dependent protein kinases by immuno-gold electron microscopy suggested a high concentration of cyclic AMP-dependent protein kinases in mitochondria from liver, kidney, heart and skeletal muscle, pancreas, parotid gland and brain cells. The position of gold particles pointed to a localization in the inner membrane/matrix space. A similar distribution was obtained by immunolocalization of the cyclic AMP-dependent protein kinase regulatory subunits RI and RII in liver, pancreas and heart cells. The results indicated the presence of both the type I and the type II cyclic AMP-dependent protein kinases in mitochondria of hepatocytes, and the preferential occurrence of the type I protein kinase in mitochondria from exocrine pancreas and heart muscle. The immunocytochemical results were confirmed by immunochemical determination of cyclic AMP-dependent protein kinase subunits in fractionated tissues. Determinations by e.l.i.s.a. of the C-subunit in parotid gland cell fractions indicated about a 4-fold higher concentration of C-subunit in the mitochondria than in a crude 1200 g supernatant. Immunoblot analysis of subfractions from liver mitochondria supported the localization in situ of cyclic AMP-dependent protein kinases in the inner membrane/matrix space and suggested that the type I enzyme is anchored by its regulatory subunit to the inner membrane. In accordance with the immunoblot data, the specific activity of cyclic AMP-dependent protein kinase measured in the matrix fraction was about twice that measured in whole mitochondria. These findings indicate the importance of cyclic AMP-dependent protein kinases in the regulation of mitochondrial functions.     

Purification of unique alpha subunits of GTP-binding regulatory proteins (G proteins) by affinity chromatography with immobilized beta gamma subunits

Novel G protein alpha subunits were purified from rat brain by an affinity matrix containing immobilized beta gamma subunits (Pang, I.-H., and Sternweis, P. C. (1989) Proc. Natl. Acad. Sci. U. S. A. 86, 7814-7818). They were unique based on the following criteria. These alpha subunits migrated differently through polyacrylamide gels with an apparent molecular mass of 42 kDa. They did not behave similarly to the other brain G proteins by conventional chromatographic techniques. Antisera raised against a common region of known alpha subunits failed to recognize these 42-kDa polypeptides. Finally, primary sequences of tryptic fragments of these proteins contain regions homologous to, yet unique from, the other alpha subunits. Sequences are identical with one or more members of a new family of alpha subunits recently identified by molecular genetic techniques (Strathmann, M., Wilke, T. M., and Simon, M. I. (1989) Proc. Natl. Acad. Sci. U. S. A. 86, 7407-7409); most of the primary sequence identifies an alpha subunit labeled alpha q. These polypeptides were not substrates for ADP-ribosylation catalyzed by pertussis toxin. They bound GTP gamma S only with slow rates and low stoichiometry. Antisera to peptides based on primary sequence were specific for the new alpha subunits and indicate that they are widely distributed at low levels in different tissues but more concentrated in brain and lung. This procedure provides a means of preparing native G proteins that have a potential role as modulators of pertussis toxin-insensitive regulatory pathways.     

Concentrations of cyclic AMP-dependent protein kinase subunits in various tissues.

The concentrations of the regulatory (R) and catalytic (C) subunits of adenosine 3':5'-monophosphate (cyclic AMP)-dependent protein kinase(s) were measured in extracts of skeletal muscle, heart, liver, kidney, and brain. These concentrations were also estimated for the particulate fraction from brain, the only tissue in which a major part of the total activity was not readily extracted in a soluble form. Values for R were determined by measuring the amount of cyclic [3H]amp bound to protein in these tissue fractions under specified conditions; it was assumed that 1 mol of cyclic AMP binds to 1 mol of R. Values for C were determined from measurements of the specific protein kinase activity of the fractions utilizing the turnover number of pure C in the calculations. Turnover numbers for C were found to be identical for this subunit obtained in the pure form from rabbit skeletal muscle, rabbit liver, and beef heart. The methods used for measuring C were evaluated by kinetic studies and through the use of the specific heatstable protein inhibitor of cyclic AMP-dependent protein kinase(s). R and C were found to exist in a 1:1 molar ratio in all of the tissue fractions that were studied. the absolute concentrations of R and C ranged from 0.23 mumol/kg wet weight for liver to 0.78 mumol/kg wet weight for brain. For brain this value was based on the amount of each subunit in the particulate as well as the soluble fraction. For other tissues the values were based solely on the subunit content of the latter fraction. It was noted that the molar concentrations of R are close to those of cyclic AMP under basal conditions in the various tissues.     

Interaction of guanine-nucleotide-binding regulatory proteins with chemotactic peptide receptors in differentiated human leukemic HL-60 cells.

Human leukemic HL-60 cells were differentiated into neutrophil-like cells by treatment with dimethylsulfoxide (Me2SO) or N6,O2'-dibutyryladenosine 3',5'-phosphate (Bt2cAMP), and membrane fractions were prepared from the differentiated cells. Receptors for fMLF (fM,N-formylmethionine) and guanine-nucleotide-binding regulatory proteins (G proteins) serving as the substrate for pertussis toxin (islet-activating protein; IAP) were extracted from cell membranes then reconstituted into phospholipid vesicles. The binding of fMLF to the reconstituted vesicles (or the membranes) was determined with 10 nM [3H] fMLF. In both cases, high-affinity binding to vesicle preparations from the Me2SO- and Bt2cAMP-induced cells was abolished following treatment with IAP, suggesting that fMLF receptors were functionally coupled to IAP-sensitive G proteins in each of the two vesicle types. However, the high-affinity fMLF binding was much higher in vesicle preparations originating from Bt2cAMP-induced cells than in those from Me2SO-induced cells, although the amount of IAP-substrate G protein reconstituted into the each phospholipid vesicles preparation was not significantly different from the other. The G proteins of the two differentiated cells were both identified as inhibitory forms (Gi-2) based on their electrophoretic mobilities and immunoblot analyses. When purified Gi-2 from rat brain was reconstituted into the two IAP-treated vesicles, high-affinity fMLF binding was restored in a similar manner in both. IAP-substrate G proteins partially purified from the two differentiated HL-60 cells were also effective in restoring high-affinity fMLF binding to the IAP-treated vesicles. However, a significant difference was observed that the reconstituted binding was higher with the G-protein-rich fraction from Bt2cAMP-induced cells than with that from Me2SO-induced cells, with each of the two IAP-treated vesicle types. These results suggest that the different high-affinity binding of fMLF observed in the two differentiated HL-60 cells are due to a difference in the property of endogenous G proteins rather than fMLF receptors, though the two G proteins are indistinguishable from each other in terms of the subtype of G protein, Gi-2.     

Immuno-affinity purification and characterization of the alpha subunits of G0 type G proteins from various bovine tissues.

Polyclonal antibodies to the alpha subunits of G0 type G proteins (G0 alpha) were coupled to agarose gel and used to isolate G0 alpha from solubilized membranes of various bovine tissues. The cholate extract of membranes was applied to the anti-G0 alpha-agarose gel column. The column was washed extensively, then bound proteins were eluted at a neutral pH using a commercial ActiSep Elution Medium. The proteins in the eluate displayed a single band of 39 kDa on SDS-polyacrylamide gel electrophoresis. They bound to GTP gamma S and were ADP-ribosylated by pertussis toxin. The yield of the immunoreactive G0 alpha from the extract was about 40%. Isoelectric focusing, immunoassay and peptide mapping analysis of the G0 alpha-like proteins purified from the heart and adrenal medulla indicated that these proteins were very similar to the alpha subunit of a minor subtype of G0 in the brain which was previously referred to as G0 * alpha.     

Towards complete sets of farnesylated and geranylgeranylated proteins

Three different prenyltransferases attach isoprenyl anchors to C-terminal motifs in substrate proteins. These lipid anchors serve for membrane attachment or protein-protein interactions in many pathways. Although well-tolerated selective prenyltransferase inhibitors are clinically available, their mode of action remains unclear since the known substrate sets of the various prenyltransferases are incomplete. The Prenylation Prediction Suite (PrePS) has been applied for large-scale predictions of prenylated proteins. To prioritize targets for experimental verification, we rank the predictions by their functional importance estimated by evolutionary conservation of the prenylation motifs within protein families. The ranked lists of predictions are accessible as PRENbase (http://mendel.imp.univie.ac.at/sat/PrePS/PRENbase) and can be queried for verification status, type of modifying enzymes (anchor type), and taxonomic distribution. Our results highlight a large group of plant metal-binding chaperones as well as several newly predicted proteins involved in ubiquitin-mediated protein degradation, enriching the known functional repertoire of prenylated proteins. Furthermore, we identify two possibly prenylated proteins in Mimivirus. The section HumanPRENbase provides complete lists of predicted prenylated human proteins-for example, the list of farnesyltransferase targets that cannot become substrates of geranylgeranyltransferase 1 and, therefore, are especially affected by farnesyltransferase inhibitors (FTIs) used in cancer and anti-parasite therapy. We report direct experimental evidence verifying the prediction of the human proteins Prickle1, Prickle2, the BRO1 domain-containing FLJ32421 (termed BROFTI), and Rab28 (short isoform) as exclusive farnesyltransferase targets. We introduce PRENbase, a database of large-scale predictions of protein prenylation substrates ranked by evolutionary conservation of the motif. Experimental evidence is presented for the selective farnesylation of targets with an evolutionary conserved modification site.     

Identification of a gamma subunit associated with the adenylyl cyclase regulatory proteins Ns and Ni

The subunit composition of the Ns and Ni, the human erythrocyte stimulatory and inhibitory regulatory proteins of adenylyl cyclase, respectively, were analyzed by a sodium dodecyl sulfate-containing discontinuous urea and polyacrylamide gradient gel electrophoresis system designed for the study of low molecular weight polypeptides. This system disclosed that these proteins, in addition to their known alpha and beta subunits, contain an additional small peptide of apparent molecular weight of 5,000 (5K). This "5K peptide" is also present in preparations of another protein which we termed "40K protein" on the basis of its hydrodynamic behavior and whose primary protein constituent is the Mr 35,000 beta subunit of the above regulatory proteins. Analyzing Ni, the 5K peptide was functionally related to the protein by showing that its apparent Stokes radius changes from 5.9 to 5.1 nm after treatment with guanyl-5'-yl imidodiphosphate and magnesium in parallel with the alpha and beta subunits. These data are interpreted as evidence for the existence of a third subunit associated with the regulatory proteins of adenylyl cyclase. We call this subunit gamma and propose a minimum subunit structure for these proteins of the alpha beta gamma type.     

Ntau-methylhistidine content of mixed proteins in various rat tissues.

In order to use Ntau-methylhistidine (3-methylhistidine) excretion in the urine as a measure of muscle protein breakdown, it is necessary to demonstrate that other tissues are not important sources of this protein constituent. Accordingly, the concentration of Ntau-methylhistidine in blood serum and in the mixed proteins of heart, brain, lung, kidney, diaphragm, spleen, testis, stomach, liver and hind leg skeletal muscle was measured in male rats of approx. 400 g body weight. The free Ntau-methylhistidine concentration of rat serum was less than 2 nmol per ml. In contrast, measurable amounts of Ntau-methylhistidine were found in the mixed proteins of all tissues and organs examined. The highest concentration was found in skeletal muscle (658 nmol/g tissue). Assuming muscle mass to be 45% of body weight, it has been estimated that the muscle contains more than ten times the total amount of this amino acid present in all of the other organs analyzed, which together account for about 20% of total body weight. These findings indicate that skeletal muscle is likely to be the major source of urinary Ntau-methylhistidine and the latter is, in consequence, a reflection of myofibrillar protein breakdown in skeletal muscle.     

ADP receptor-induced activation of guanine-nucleotide-binding proteins in human platelet membranes.

ADP receptor-regulated binding of the labeled GTP analog, guanosine 5'-O-(3-[35S]thiotriphosphate) ([35S]GTP[gamma S]), to guanine-nucleotide-binding proteins (G proteins) was studied in human platelet membranes. The potent ADP receptor agonist, 2-methyl-thio-adenosine 5'-diphosphate (2MeSADP), a non-hydrolyzable analog of ADP, increased the binding of [35S]GTP[gamma S] without apparent lag phase. Under optimal conditions, i.e. in the presence of GDP (1-10 microM), 2MeSADP increased the binding up to about threefold, with half-maximal and maximal increase observed at 10 nM and 1 microM 2MeSADP, respectively. ADP itself increased the binding of [35S]GTP[gamma S] by maximally about twofold, with half-maximal increase occurring at 0.1 microM ADP. The agonist-induced stimulation was competitively antagonized by the ADP receptor(s) antagonist, (1S)-adenosine 5'-O-(1-thiotriphosphate) [(Sp)-ATP[alpha S]]. Other platelet receptor agonists known to act through receptors coupled to G proteins also increased binding of [35S]GTP[gamma S] in human platelet membranes, but without being inhibited by (Sp)-ATP[alpha S]. The data presented indicate that the platelet ADP receptor(s) can interact with and efficiently activate G proteins, the nature of which remains to be identified.     

Identification of a tissue-specific regulatory element within the murine CD14 gene.

We previously isolated and sequenced the 5'-flanking region of the mouse CD14 (mCD14) gene (Matsuura, K., Setoguchi, M., Nasu, N., Higuchi, Y., Yoshida, S., Akizuki, S., and Yamamoto, S. (1989) Nucleic Acids Res. 17, 2132). To define the regulatory elements that control expression of the mCD14 gene, we analyzed the structure of the 5' end of the gene, including a region further upstream of that determined previously. Sequentially 5'-deleted, chimeric, and point mutated clones were tested for the ability to stimulate chloramphenicol acetyltransferase. An 8-base pair sequence, TGATTCAC, at position -255, which resembled the consensus sequence of the 12-O-tetradecanoylphorbol-13-acetate-responsive element (TRE), enhanced the expression of the chloramphenicol acetyltransferase gene in macrophage (aHINS-B3) and non-macrophage (glioblastoma G203 and myeloma NS1) cells. The enhancing ability of the TRE-like sequence (TLS), however, was markedly reduced in G203 cells but not in aHINS-B3 cells when the TLS was followed by the sequence immediately downstream. The TLS and sequence immediately downstream were capable of binding nuclear proteins which were unique to aHINS-B3 cells and macrophages, suggesting that these unique protein regulate the specific expression of the mCD14 gene. Binding of AP-1 to the TLS was also found in aHINS-B3 and G203 cells. Although it is uncertain whether AP-1 is involved in expression of the mCD14 gene, the effect of AP-1 in non-macrophage cells was inhibited by a nuclear protein which binds to the sequence immediately downstream of the TLS.     

Expression of regulatory and tissue-specific genes controlling regenerative potencies of eye tissues in vertebrates

Comparative analysis of the early transformations of differentiated cells of the pigment epithelium, ciliary fold epithelium, and Muller glia in the eye of lower vertebrates and mammals during retina regeneration and cultivation was performed for the first time. Dedifferentiation and proliferation of cells and formation of progenitor multipotent cells, which are a source of retina regeneration in adult newts, were characterized using cell, molecular, and genetic markers. Neurospheres were formed during cultivation of the differentiated cells, in which progenitor multipotent cells were found that transformed into neurons of retina and brain and into glial cells. Comparative analysis of changes in the pigment epithelium cells during retina regeneration and during cultivation of differentiated cells of the pigment and ciliary epithelia and Muller glia suggests similar cell transformations at the early stages of transdifferentiation.     

Subtypes of guanine-nucleotide-binding regulatory proteins at the locus coeruleus involved in fentanyl-induced muscular rigidity in the rat

Previous results from our laboratory have established that the G_o subtype of guanine nucleotide (GTP)-binding regulatory proteins at the locus coeruleus (LC) may participate in the elicitation of muscular rigidity by fentanyl. The present study further examined the involvement of other subtypes of GTP-binding regulatory proteins at the LC in this process, using Sprague-Dawley rats anesthetized with ketamine (120 mg/kg, i.p., with 30 mg/kg/h i.v. infusion supplements) and under mechanical ventilation. Intravenous administration of fentanyl (100 µg/kg) induced a significant increase in electromyographic signals recorded from the sacrococcygeus dorsi lateralis muscle. Power spectral analysis revealed that this was accomplished by a decrease in the mean power frequency and an increase in the root mean square values of the signals. The above responses were appreciably antagonized by pretreating animals with bilateral microinjection into the LC of pertussis toxin (80 or 160 fmol), N-ethylmaleimide (16 pmol) or 1-(5-isoquinolinesulfonyl)-2-methylpiperazine (100 or 200 fmol); but not by cholera toxin (120 or 240 fmol), forskolin (240 or 480 pmol) or N-ethylmaleimide at a higher dose (32 pmol). These results suggest that, in addition to G_o protein, fentanyl-induced muscular rigidity may also involve other pertussis toxin-sensitive GTP-binding regulatory proteins, possibly G_i and G_p subtypes, in the signal transduction processes following activation of -opioid receptors at the LC.     

Existence of two gamma subunits of the G proteins in brain

Although amino acid sequences have been determined for the alpha and beta subunits of Gs, Gi, and Go, sequences have not been reported for the gamma subunits of these G proteins. In the present paper, we determined the sequences of peptides prepared by partial proteolysis of two different forms of the gamma subunit of Gs, Gi, and Go from bovine brain. Using oligonucleotide probes based on the sequences of two of these peptides, a cDNA clone was isolated from a bovine adrenal cDNA library. This clone contained a 0.9-kilobase cDNA insert that included an open reading frame of 213 bases encoding a 71-amino acid polypeptide with an estimated Mr of 7850. The amino acid sequence predicted for the adrenal cDNA clone was identical to that determined for one form of the gamma subunit from brain. In addition, an antibody to a peptide based on the predicted amino acid sequence of this cDNA clone reacted specifically with one of the brain gamma subunits, indicating the adrenal cDNA clone encodes a gamma subunit present in both adrenal gland and brain. Also, evidence is presented, demonstrating the existence of a second, structurally distinct, form of the gamma subunit of Gs, Gi, and Go in brain.     

Expression of regulatory and tissue-specific genes controlling regenerative potencies of the eye tissues in vertebrates

Comparative analysis of the early transformations of differentiated cells of the pigment epithelium, ciliary fold epithelium, and Muller glia in the eye of lower vertebrates and mammals during retina regeneration and cultivation was performed for the first time. Dedifferentiation and proliferation of cells and formation of progenitor multipotent cells, which are a source of retina regeneration in adult newts, were characterized using cell, molecular, and genetic markers. Neurospheres were formed during cultivation of the differentiated cells, in which progenitor multipotent cells were found that transformed into neurons of retina and brain and into glial cells. Comparative analysis of changes in the pigment epithelium cells during retina regeneration and during cultivation of differentiated cells of the pigment and ciliary epithelia and Muller glia suggests similar cell transformations at the early stages of transdifferentiation.