Assembly of gamma- with alpha-globin chains to form human fetal hemoglobin in vitro and in vivo

Soluble gamma-globin chains were expressed in bacteria and purified to assess the mechanism of gamma- and alpha-chain assembly to form Hb F. Formation of Hb F in vitro following incubation of equimolar mixtures of gamma and alpha chains was about 4 x 10(5)-fold slower than assembly of alpha and beta chains to form Hb A in vitro. Results of assembly for gamma(116Ile-->His) and gamma(112Thr-->Asp) chains with alpha chains were similar to that of beta chains, whereas assembly of gamma(112Thr-->Cys) and alpha chains was similar to wild type gamma chains, indicating that amino acid differences at alpha1beta1 and alpha1gamma1 interaction sites between gamma116 Ile and beta116 His are responsible for the different assembly rates in vitro in the formation of Hb F and Hb A. Homoassembly in vitro of individual gamma chains as assessed by size-exclusion chromatography shows that gamma and gamma(112Thr-->Cys) chains form stable dimers like alphabeta and alphagamma that do not dissociate readily into monomers like beta chains. In contrast, gamma(116Ile-->His) chains form monomers and dimers upon dilution. These results are consistent with the slower assembly rate in vitro of gamma and gamma(112Thr-->Cys) with alpha chains, whereas the faster rate of assembly of gamma(116Ile-->His) and gamma(112Thr-->Asp) chains with alpha chains, like beta chains, may be caused by dissociation to monomers. These results suggest that dissociation of gamma(2) dimers to monomers limits formation of Hb F in vitro. However, yields of soluble Hb F expressed in bacteria were similar to Hb A, and no unassembled alpha and gamma chains were detected. These results indicate that gamma chains assemble in vivo with alpha chains prior to forming stable gamma(2) dimers, possibly binding to alpha chains as partially folded nascent gamma-globin chains prior to release from polyribosomes.     

The isolation and structure of C4, the fourth component of human complement.

The fourth component of complement, C4, was isolated from human serum in good yield, and in confirmation of previous reports was shown to be formed from three peptide chains, alpha, beta and gamma, with apparent mol.wts. 90 000, 80 000 and 30 000 respectively. Preparative methods are described for the isolation of the three peptide chains and their amino acid analyses reported. Component C4 contains 7.0% carbohydrate, alpha-chain 8.6% and the beta-chain 5.6%. The N-terminal amino acid sequences are given for 12 residues of the alpha-chain, eight of the beta-chain and 19 of the gamma-chain.     

An indel within the C8 alpha subunit of human complement C8 mediates intracellular binding of C8 gamma and formation of C8 alpha-gamma

Human C8 is one of five complement components (C5b, C6, C7, C8, and C9) that interact to form the cytolytic membrane attack complex, or MAC. It is an oligomeric protein composed of three subunits (C8alpha, C8beta, C8gamma) that are products of different genes. In C8 from serum, these are arranged as a disulfide-linked C8alpha-gamma dimer that is noncovalently associated with C8beta. In this study, the site on C8alpha that mediates intracellular binding of C8gamma to form C8alpha-gamma was identified. From a comparative analysis of indels (insertions/deletions) in C8alpha and its structural homologues C8beta, C6, C7, and C9, it was determined that C8alpha contains a unique insertion (residues 159-175), which includes Cys(164) that forms the disulfide bond to C8gamma. Incorporation of this sequence into C8beta and coexpression of the resulting construct (iC8beta) with C8gamma produced iC8beta-gamma, an atypical disulfide-linked dimer. In related experiments, C8gamma was shown to bind noncovalently to mutant forms of C8alpha and iC8beta in which Cys(164)-->Gly(164) substitutions were made. In addition, C8gamma bound specifically to an immobilized synthetic peptide containing the mutant indel sequence. Together, these results indicate (a) intracellular binding of C8gamma to C8alpha is mediated principally by residues contained within the C8alpha indel, (b) binding is not strictly dependent on Cys(164), and (c) C8gamma must contain a complementary binding site for the C8alpha indel.     

The transmembrane anchor of the T-cell antigen receptor beta chain contains a structural determinant of pre-Golgi proteolysis.

Studies with the T-cell antigen receptor (TCR) have shown that the endoplasmic reticulum, or an organelle closely associated with it, can retain and degrade membrane proteins selectively. The observation that only three (alpha, beta, and delta) of the six (alpha beta gamma delta epsilon zeta) subunits of the TCR are susceptible to proteolysis implies that structural features within the labile proteins mark them for degradation. The TCR beta chain is degraded in the endoplasmic reticulum, and, in this study, we have started to define the domains of the protein that make it susceptible to proteolysis. The experiments show that the transmembrane anchor and short five-amino-acid cytoplasmic tail of the protein contain a dominant determinant of proteolysis. When these residues were removed from the beta chain, the protein became resistant to proteolysis. Even though the resulting ectodomain of the beta chain lacked a transmembrane anchor, it was not secreted by cells and was retained in the endoplasmic reticulum. We conclude that retention in the endoplasmic reticulum alone does not lead to degradation. The results suggest that structural features within the membrane anchor of the protein predispose the beta chain to proteolysis. This was confirmed by replacing the membrane anchor of the interleukin 2 (IL2) receptor, a protein that was stable within the secretory pathway, with that of the TCR beta chain. The unmodified IL2 receptor was transported efficiently to the surface of cells, and an "anchor minus" construct was secreted quantitatively into the culture media. When the membrane anchor of the IL2 receptor was replaced with that of the TCR beta chain, the chimera was unable to reach the Golgi apparatus and was degraded rapidly.     

Chromatographic resolution and immunologic identification of the alpha 40 and alpha 41 subunits of guanine nucleotide-binding regulatory proteins from bovine brain

A guanine nucleotide-binding regulatory protein (G protein), with subunits designated as alpha 40 beta gamma, was identified and partially resolved from two other purified G proteins, Go (alpha 39 beta gamma) and Gi (alpha 41 beta gamma), found in bovine brain. The alpha 40 G protein subunit served as a substrate for ADP-ribosylation catalyzed by Bordetella pertussis toxin, as did alpha 39 and alpha 41. alpha 40 was shown to be closely related to, but distinct from, alpha 41 by reaction with various peptide antisera. An antiserum generated against a peptide derived from the sequence of a Gi alpha clone isolated from a rat C6 glioma cDNA library (Itoh, H., Kozasa, T., Nagata, S., Nakamura, S., Katada, T., Ui, M., Iwai, S., Ohtsuka, E., Kawasaki, H., Suzuki, K., and Kaziro, Y. (1986) Proc. Natl. Acad. Sci. U. S. A. 83, 3776-3780) reacted with alpha 40 to the exclusion of all other alpha subunits tested. Another antiserum generated against a peptide derived from an analogous region of a different Gi alpha clone from a bovine brain cDNA library (Nukuda, T., Tanabe, T., Takahashi, H., Noda, M., Haga, K., Haga, T., Ichiyama, A., Kangawa, K., Hiranaga, M., Matsuo, H., and Numa, S. (1986) FEBS Lett. 197, 305-310) reacted exclusively with alpha 41. Evidence is given for the existence of another form of alpha 41 that did not react with either of these two peptide antisera. The antisera were used to survey various rat tissues for the expression of alpha 40 and alpha 41.     

Characterization of the bilin attachment sites in R-phycoerythrin

The amino acid sequence around the sites of attachment of all the bilin prosthetic groups of Gastroclonium coulteri R-phycoerythrin, (alpha beta)6 gamma, have been determined. The sequences of tryptic peptides derived from the alpha and beta subunits are (Formula: see text) where the designations alpha and beta refer to the subunits from which the peptides derived. Cysteinyl residues involved in bilin attachment are indicated with an asterisk. Each peptide carries a single bilin, either phycoerythrobilin (PEB) or phycourobilin (PUB). Spectroscopic studies on the gamma subunit indicate the presence of one PEB and three PUB groups. However, five unique tryptic peptides, gamma-A through gamma-E, were characterized, indicating that Gastroclonium R-phycoerythrin is a mixture of at least two species, (alpha beta)6 gamma and (alpha beta)6 gamma', with gamma subunits differing in amino acid sequence. The sequences of the gamma subunit bilin peptides (see below) were not homologous to those from alpha and beta subunits of any biliprotein. (Formula: see text) The bilins in all these peptides are attached through single linkages to a cysteinyl residue, except for the phycourobilin on peptide beta-3 which is attached through two thioether linkages to cysteinyl residues 10 amino acids apart. The availability of small bilin peptides was exploited to obtain more accurate molar extinction coefficients for peptide-linked PEB and PUB groups. Application of these extinction coefficients in the calculation of the bilin content of R-, B-, and C-phycoerythrins shows that there are 5 bilins/alpha beta in each of these three biliprotein types.     

gamma delta T cells in the human intestine express surface markers of activation and are preferentially located in the epithelium

We have investigated the expression of the alpha beta and the gamma delta T cell receptor (TCR) in the human intestine. By immunohistology we found that 39% of CD3+ intraepithelial lymphocytes (IEL) expressed the gamma delta TCR compared to 3% of CD3+ lamina propria lymphocytes (LPL). Cytofluorometric analysis of isolated cells revealed a significantly higher proportion of gamma delta T cells among CD3+ IEL compared to LPL and peripheral blood lymphocytes. This was due to an increase in both CD8+ (low density) and CD4-CD8- gamma delta T cells in IEL. Most alpha beta IEL expressed high-density CD8. About 30% of both IEL and LPL expressed CD25 (alpha-chain of the IL-2 receptor). HML-1 expression was detected on nearly all IEL and on 27% of LPL. CD25 and HML-1 were preferentially expressed on intestinal alpha beta and gamma delta T cells, respectively. Thus, human gamma delta T cells are located preferentially in the gut epithelium and are phenotypically different from alpha beta T cells, which constitute the majority of both LPL and IEL.     

The purified alpha subunits of Go and Gi from bovine brain require beta gamma for association with phospholipid vesicles

The purified G-proteins from bovine brain were examined for potential solubility in the absence of detergent. The isolated alpha o and alpha i subunits migrated through sucrose with rates consistent with the existence of monomeric species either in the presence or the absence of cholate. The beta gamma subunits or holo-G-proteins aggregated extensively if cholate was absent. Al3+, Mg2+, and F- prevented the aggregation of alpha o and alpha i caused by the addition of beta gamma and could also prevent the aggregation of alpha s when Gs was examined at higher temperature. The association of subunits with phospholipid vesicles was examined. Whereas beta gamma associated totally with phospholipid vesicles, purified alpha o showed little interaction. alpha o did bind to vesicles containing beta gamma (beta gamma vesicles) in a saturable fashion that indicated a stoichiometric association between the subunits. Treatment with guanosine 5'-(3-O-thio)triphosphate could partially dissociate alpha o that was bound to beta gamma vesicles. These data suggest that beta gamma may be an anchor for association of alpha subunits with membranes and that regulation by these proteins may not be limited to the plasma membrane. This possibility and its implications are discussed. The reversible association of alpha o to beta gamma vesicles may provide a very sensitive system for the study of the interactions between these subunits.     

Characterization of commercial laminin preparations from human placenta in comparison to recombinant laminins 2 (alpha2beta1gamma1), 8 (alpha4beta1gamma1), 10 (alpha5beta1gamma1).

Laminins, a family of large heterotrimeric (alphabetagamma) proteins, are major components of basement membranes implicated in a variety of cellular functions. Different commercial laminin preparations isolated from human placenta have been widely used in functional studies but their molecular properties are poorly known. In the present study, we characterized several of these preparations by ELISA, silver staining and Western blotting, in comparison to mouse laminin 1 (alpha1beta1gamma1), and recombinant human laminins 2 (alpha2beta1gamma1), 8 (alpha4beta1gamma1) and 10 (alpha5beta1gamma1). The cell migration-promoting activity of different batches was also tested. The placenta laminin preparations differed from one another and consisted of highly fragmented proteins, a mixture of laminin isoforms, and/or contaminating fibronectin. Major functional differences between batches were also observed, reflecting molecular heterogeneity. Previous data obtained in functional studies using these preparations need to be interpreted with caution and may require revision, and future functional studies demand prior molecular characterization of the laminins, particularly their alpha-chain.     

Chimeric and truncated forms of human complement protein C8 alpha reveal binding sites for C8 beta and C8 gamma within the membrane attack complex/perforin region.

Human C8 is one of five components of the membrane attack complex of complement. It is an oligomeric protein composed of three subunits (C8 alpha, C8 beta, and C8 gamma) that are derived from different genes. C8 alpha and C8 beta are homologous and both contain a pair of tandemly arranged N-terminal modules [thrombospondin type 1 (TSP1) + low-density lipoprotein receptor class A (LDLRA)], an extended middle segment referred to as the membrane attack complex/perforin region (MACPF), and a pair of C-terminal modules [epidermal growth factor (EGF) + TSP1]. During biosynthetic processing, C8 alpha and C8 gamma associate to form a disulfide-linked dimer (C8 alpha-gamma) that binds to C8 beta through a site located on C8 alpha. In this study, the location of binding sites for C8 beta and C8 gamma and the importance of the modules in these interactions were investigated by use of chimeric and truncated forms of C8 alpha in which module pairs were either exchanged for those in C8 beta or deleted. Results show that exchange or deletion of one or both pairs of modules does not abrogate the ability of C8 alpha to form a disulfide-linked dimer when coexpressed with C8 gamma in COS cells. Furthermore, each chimeric and truncated form of C8 alpha-gamma retains the ability to bind C8 beta; however, only those containing the TSP1 + LDLRA modules from C8 alpha are hemolytically active. These results indicate that binding sites for C8 beta and C8 gamma reside within the MACPF region of C8 alpha and that interaction with either subunit is not dependent on the modules. They also suggest that the N-terminal modules in C8 alpha are important for C9 binding and/or expression of C8 activity.     

Synergistic activation of a family of phosphoinositide 3-kinase via G-protein coupled and tyrosine kinase-related receptors.

Phosphoinositide 3-kinase (PI 3-kinase) is a key signaling enzyme implicated in a variety of receptor-stimulated cell responses. Stimulation of receptors possessing (or coupling to) protein-tyrosine kinase activates heterodimeric PI 3-kinases, which consist of an 85-kDa regulatory subunit (p85) containing Src-homology 2 (SH2) domains and a 110-kDa catalytic subunit (p110 alpha or p110 beta). Thus, this form of PI 3-kinases could be activated in vitro by a phosphotyrosyl peptide containing a YMXM motif that binds to the SH2 domains of p85. Receptors coupling to alpha beta gamma-trimeric G proteins also stimulate the lipid kinase activity of a novel p110 gamma isoform, which is not associated with p85, and thereby is not activated by tyrosine kinase receptors. The activation of p110 gamma PI 3-kinase appears to be mediated through the beta gamma subunits of the G protein (G beta gamma). In addition, rat liver heterodimeric PI 3-kinases containing the p110 beta catalytic subunit are synergistically activated by the phosphotyrosyl peptide plus G beta gamma. Such enzymatic properties were also observed with a recombinant p110 beta/p85 alpha expressed in COS-7 cells. In contrast, another heterodimeric PI 3-kinase consisting of p110 alpha and p85 in the same rat liver, together with a recombinant p110 alpha/p85 alpha, was not activated by G beta gamma, though their activities were stimulated by the phosphotyrosyl peptide. Synergistic activation of PI 3-kinase by the stimulation of the two major receptor types was indeed observed in intact cells, such as chemotactic peptide (N-formyl-Met-Leu-Phe) plus insulin (or Fc gamma II) receptors in differentiated THP-1 and CHO cells and adenosine (A1) plus insulin receptors in rat adipocytes. Thus, PI 3-kinase isoforms consisting of p110 beta catalytic and SH2-containing (p85 or its related) regulatory subunits appeared to function as a 'cross-talk' enzyme between the two signal transduction pathways mediated through tyrosine kinase and G protein-coupled receptors.     

Proteolytic processing of h1-like histones in chromatin: a physiologically and developmentally regulated event in Tetrahymena micronuclei

Micronuclei isolated from growing cells of Tetrahymena thermophila contain three H1-like polypeptides alpha, beta, and gamma. Micronuclei isolated from young conjugating cells (3-7 h) also contain a larger molecular weight polypeptide, X, which is being actively synthesized and deposited into these nuclei (Allis, C. D., and J. C. Wiggins, 1984, Dev. Biol., 101:282-294). Pulse-chase experiments (with growing and conjugating cells) suggested that X is a precursor to alpha and that alpha is further processed to gamma and a previously undescribed and relatively minor species, delta. These precursor-product relationships were supported by cross-reactivity with polyclonal antibodies raised against alpha and peptide mapping. While beta consistently became labeled under chase conditions (both in growing and mating cells), it was not clear whether it is part of the vivo processing event(s) which interrelates X, alpha, gamma, and delta. Beta was not recognized by alpha antibodies. Despite this uncertainty, these results suggest that proteolytic processing serves to generate significant changes in the complement of H1-like histones present in this nucleus.     

Sequence gamma 377-395(P2), but not gamma 190-202(P1), is the binding site for the alpha MI-domain of integrin alpha M beta 2 in the gamma C-domain of fibrinogen

The interaction between the leukocyte integrin alpha(M)beta(2) (CD11b/CD18, Mac-1, CR3) and fibrinogen mediates the recruitment of phagocytes during the inflammatory response. Previous studies demonstrated that peptides P2 and P1, duplicating gamma 377-395 and gamma 190-202 sequences in the gamma C domain of fibrinogen, respectively, blocked the fibrinogen-binding function of alpha(M)beta(2), implicating these sequences as possible binding sites for alpha(M)beta(2). To determine the role of these sequences in integrin binding, recombinant wild-type and mutant gamma C domains were prepared, and their interactions with the alpha(M)I-domain, a ligand recognition domain within alpha(M)beta(2), were tested. Deletion of gamma 383-411 (P2-C) and gamma 377-411 produced gamma C mutants which were defective in binding to the alpha(M)I-domain. In contrast, alanine mutations of several residues in P1 did not affect alpha(M)I-domain binding, and simultaneous mutations in P1 and deletion of P2 did not decrease the binding function of gamma C further. Verifying the significance of P2, inserting P2-C and the entire P2 into the homologous position of the beta C-domain of fibrinogen imparted the higher alpha(M)I-domain binding ability to the chimeric proteins. To further define the molecular requirements for the P2-C activity, synthetic peptides derived from P2-C and a peptide array covering P2-C have been analyzed, and a minimal recognition motif was localized to gamma(390)NRLTIG(395). Confirming a critical role of this sequence, the cyclic peptide NRLTIG retained full activity inherent to P2-C, with Arg and Leu being important residues. Thus, these data demonstrate the essential role of the P2, but not P1, sequence for binding of gamma C by the alpha(M)I-domain and suggest that the adhesive function of P2 depends on the minimal recognition motif NRLTIG.     

Subunit location and sequences of the cysteinyl peptides of pig heart NAD-dependent isocitrate dehydrogenase

Pig heart NAD-dependent isocitrate dehydrogenase has a subunit structure consisting of alpha 2 beta gamma, with the alpha subunit exhibiting a molecular weight of 39,000 and the beta and gamma each having molecular weights of 41,000. The amino-terminal sequences (33-35 residues) and the cysteinyl peptide sequences have now been determined by using subunits separated by chromatofocusing or isoelectric focusing and electroblotting. Displacement of the N-terminal sequence of the alpha subunit by 11-12 amino acids relative to that of the larger beta and gamma subunits reveals a 17 amino acid region of great similarity in which 10 residues are identical in all three subunits. The complete enzyme has 6.0 free SH groups per average subunit of 40,000 daltons, but yields 15 distinguishable cysteines in isolated tryptic peptides. Six distinct cysteines in sequenced peptides have been located in the alpha subunit. The beta and gamma subunits contain seven and five cysteines, respectively, with tryptic peptides containing three cysteines being common to the beta and gamma subunits. The three subunits appear to be closely related, but beta and gamma are more similar to each other than either is to the alpha subunit. The NAD-specific isocitrate dehydrogenase from pig heart has been shown to have 2 binding sites/enzyme tetramer for isocitrate, manganous ion, NAD+, and the allosteric activator ADP [Colman, R. F. (1983) Pept. Protein Rev. 1, 41-69]. It is proposed that the catalytically active tetrameric enzyme is organized as a dimer of dimers in which the alpha beta and alpha gamma dimers are nonidentical but functionally similar.     

A variant alpha-chain in an Ia molecule from the I-A subregion of the mouse major histocompatibility complex: a possible intragenic recombination

The recombinant MHC haplotype t1, present in mouse strain A.TL and B10.TL, encodes an I-A molecule with a variant alpha-chain that was recognized when tryptic peptide digests from t1 and the nominal parental haplotype (a1 or k) were compared by double-label reverse phase HPLC. The t1 I-A alpha-chain possesses a tryptic peptide absent from a1 and k I-A alpha-chains, and lacks several peptides present in a1 and k. The peptide that differs in t1 is not a mannose-bearing peptide, and thus its altered mobility is probably not due to carbohydrate modification. The alteration in t1 could result from mutation or intragenic recombination, but the unique t1 peptide migrates in a position identical to a peptide found in haplotype s, a partner in the (s X a1) cross that generated the t1 recombinant. If this apparently shared peptide indicates an intragenic recombination, this places the I-A alpha-gene centromeric to the other I-A subregion gene, and together with the data of Jones, suggests a gene order of I-A alpha, I-A beta, I-E beta (A alpha, A beta, Ae).     

G protein beta 5 subunit interactions with alpha subunits and effectors

When the beta(5) (short form) and gamma(2) subunits of heterotrimeric G proteins were expressed with hexahistidine-tagged alpha(i) in insect cells, a heterotrimeric complex was formed that bound to a Ni-NTA-agarose affinity matrix. Binding to the Ni-NTA-agarose column was dependent on expression of hexahistidine-tagged alpha(i) and resulted in purification of beta(5)gamma(2) to near homogeneity. Subsequent anion-exchange chromatography of beta(5)gamma(2) resulted in resolution of beta(5) from gamma(2) and further purification of beta(5). The purified beta(5) eluted as a monomer from a size-exclusion column and was resistant to trypsin digestion suggesting that it was stably folded in the absence of gamma. beta(5) monomer could be assembled with partially purified hexahistidine-tagged gamma(2) in vitro to form a functional dimer that could selectively activate PLC beta2 but not PLC beta3. alpha(o)-GDP inhibited activation of PLC beta2 by beta(5)gamma(2) supporting the idea that beta(5)gamma(2) can bind to alpha(o). beta(5) monomer and beta(5)gamma(2) only supported a small degree of ADP ribosylation of alpha(i) by pertussis toxin (PTX), but beta(5) monomer was able to compete for beta(1)gamma(2) binding to alpha(i) and alpha(o) to inhibit PTX-catalyzed ADP ribosylation. These data indicate that beta(5) functionally interacts with PTX-sensitive GDP alpha subunits and that beta(5) subunits can be assembled with gamma subunits in vitro to reconstitute activity and also support the idea that there are determinants on beta subunits that are selective for even very closely related effectors.     

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.     

Mouse invariant chain gamma exhibits structural homology to both polymorphic subunits of the alpha, beta-core complex of I-Ak antigens

The 3 major constituents of the I-Ak subregion-associated complex alpha, beta and gamma were obtained from splenocytes in homogeneous form by differential isolation methods. alpha, beta and gamma were compared on the primary structural level by enzymatic fragmentation procedures and tryptic peptide map analysis of radiolabeled proteins. The data indicate that the invariant chain gamma exhibits extensive structural homology to the polymorphic beta-light and the alpha-heavy chain. Thus, although not being encoded within the MHC gamma appears to belong structurally to the MHC-encoded class II proteins.