Single chain analogs of the TGF-&bgr; superfamily (morphons)

Chemistry: natural resins or derivatives; peptides or proteins; – Proteins – i.e. – more than 100 amino acid residues – Hormones – e.g. – prolactin – thymosin – growth factors – etc.

Reexamination Certificate

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C530S350000

Reexamination Certificate

active

06479643

ABSTRACT:

This invention relates to the design and production of single-chain biosynthetic constructs herein called “morphons” which mimic the activities of one or more members of the TGF-&bgr; superfamily.
The TGF-&bgr; superfamily includes five distinct forms of TGF-&bgr; (Sporn and Roberts (1990) in
Peptide Growth Factors and Their Receptors,
Sporn and Roberts, eds., Springer-Verlag: Berlin pp. 419-472), as well as the differentiation factors vg-1 (Weeks and Melton (1987) Cell 51: 861-867), DPP-C polypeptide (Padgett et al. (1987)
Nature
325: 81-84), the hormones activin and inhibin (Mason et al. (1985)
Nature
318: 659-663; Mason et al. (1987)
Growth Factors
1: 77-88), the Mullerian-inhibiting substance, MIS (Cate et al. (1986)
Cell
45:685-698), osteogenic and morphogenic proteins OP-1 (PCT/US90/05903), OP-2 (PCT/US91/07654), OP-3 (PCT/WO94/10202), the BMPs, (see U.S. Pat. Nos. 4,877,864; 5,141,905; 5,013,649; 5,116,738; 5,108,922; 5,106,748; and 5,155,058), the developmentally regulated protein VGR-1 (Lyons et al. (1989)
Proc. Natl. Acad. Sci. USA
86: 4554-4558) and the growth/differentiation factors GDF-1, GDF-3, GDF-9 and dorsalin-1 (McPherron et al. (1993)
J. Biol. Chem.
268: 3444-4449; Basler et al. (1993)
Cell
73: 687-702).
The proteins of the TGF-&bgr; superfamily are disulfide-linked homo- or heterodimers that are expressed as large precursor polypeptide chains containing a hydrophobic signal sequence, a long and relatively poorly conserved N-terminal pro region of several hundred amino acids, a cleavage site, and a mature domain comprising an N-terminal region which varies among the family members and a more highly conserved C-terminal region. This C-terminal region, present in the processed mature proteins of all known family members, contains approximately 100 amino acids with a characteristic cysteine motif having a conserved six or seven cysteine skeleton. Although the position of the cleavage site between the mature and pro regions varies among the family members, the cysteine pattern of the C-terminus of all of the proteins is in the identical format, ending in the sequence Cys-X-Cys-X, SEQ ID No: 44 (Sporn and Roberts (1990), supra).
Recombinant TGF-&bgr;1 has been cloned (Derynck et al. (1985)
Nature
316: 701-705), and expressed in Chinese hamster ovary cells (Gentry et al. (1987)
Mol. Cell. Biol.
7: 3418-3427). Additionally, recombinant human TGF-&bgr;2 (deMartin et al. (1987)
EMBO J.
6:3673), as well as human and porcine TGF-&bgr;3 (Derynck et al. (1988)
EMBO J.
7: 3737-3743; Dijke et al. (1988)
Proc. Natl. Acad. Sci. USA
85:4715), have been cloned. Expression levels of the mature TGF-&bgr;1 protein in COS cells have been increased by substituting cysteine residues located in the pro region of the TGF-&bgr;1 precursor with serine residues (Brunner et al. (1989)
J. Biol. Chem.
264: 13660-13664).
A unifying feature of the biology of the proteins of the TGF-&bgr; superfamily is their ability to regulate developmental processes. These structurally related proteins have been identified as being involved in a variety of developmental events. For example, TGF-&bgr; and the polypeptides of the inhibin/activin group appear to play a role in the regulation of cell growth and differentiation. MIS causes regression of the Mullerian duct in development of the mammalian male embryo, and dpp, the gene product of the Drosophila decapentaplegic complex, is required for appropriate dorsal-ventral specification. Similarly, Vg-1 is involved in mesoderm induction in Xenopus, and Vgr-1 has been identified in a variety of developing murine tissues. Regarding bone formation, many of the proteins in the TGF-&bgr; supergene family, namely OP-1 and a subset of the BMPs apparently play the major role. OP-1 (BMP-7) and other osteogenic proteins have been produced using recombinant techniques (U.S. Pat. No. 5,011,691 and PCT Application No. US 90/05903) and shown to be able to induce formation of true endochondral bone in vivo. BMP-2 has been recombinantly produced in monkey COS-1 cells and Chinese hamster ovary cells (Wang et al. (1990)
Proc. Natl. Acad. Sci. USA
87:2220-2224).
Recently the family of proteins taught as having osteogenic activity as judged by the Sampath and Reddi bone formation assay have been shown to be morphogenic, i.e., capable of inducing the developmental cascade of tissue morphogenesis in a mature mammal (See PCT Application No. US 92/01968). In particular, these proteins are capable of inducing the proliferation of uncommitted progenitor cells, and inducing the differentiation of these stimulated progenitor cells in a tissue-specific manner under appropriate environmental conditions. In addition, the morphogens are capable of supporting the growth and maintenance of these differentiated cells. These morphogenic activities allow the proteins to initiate and maintain the developmental cascade of tissue morphogenesis in an appropriate, morphogenically permissive environment, stimulating stem cells to proliferate and differentiate in a tissue-specific manner, and inducing the progression of events that culminate in new tissue formation. These morphogenic activities also allow the proteins to induce the “redifferentiation” of cells previously stimulated to stray from their differentiation path. Under appropriate environmental conditions it is anticipated that these morphogens also may stimulate the “redifferentiation” of committed cells.
The tertiary and quaternary structure of both TGF-&bgr;2 and OP-1 have been determined. Although TGF-&bgr;2 and OP-1 exhibit only about 35% amino acid identity in their respective amino acid sequences the tertiary and quaternary structures of both molecules are strikingly similar. Both TGF-&bgr;2 and OP-1 are dimeric in nature and have a unique folding pattern involving six of the seven C-terminal cysteine residues, as illustrated in FIG.
1
A.
FIG. 1A
shows that in each subunit four cysteines bond to generate an eight residue ring, and two additional two cysteine residues form a disulfide bond that passes through the ring to form a knot-like structure. With a numbering scheme beginning with the most N-terminal cysteine of the 7 conserved cysteine residues assigned number 1, the 2nd and 6th cysteine residues bond to dose one side of the eight residue ring while the 3rd and 7th cysteine residues close the other side. The 1st and 5th conserved cysteine residues bond through the center of the ring to form the core of the knot. The 4th cysteine forms an interchain disulfide bond with the corresponding residue in the other subunit.
The TGF-&bgr;2 and OP-1 monomer subunits comprise three major structural elements and an N-terminal region. The structural elements are made up of regions of contiguous polypeptide chain that possess over 50% secondary structure of the following types: (1) loop, (2) helix and (3) &bgr;-sheet. Furthermore, in these regions the N-terminal and C-terminal strands are not more than 7 A apart. The residues between the 1st and 2nd conserved cysteines (
FIG. 1A
) form a structural region characterized by an anti-parallel &bgr;-sheet finger, referred to herein as the finger 1 region (F1). A ribbon trace of the finger 1 peptide backbone is shown in FIG.
1
B. Similarly the residues between the 5th and 6th conserved cysteines in
FIG. 1A
also form an anti-parallel &bgr;-sheet finger, referred to herein as the finger 2 region (F2). A ribbon trace of the finger 2 peptide backbone is shown in
FIG. 1D. A
&bgr;-sheet finger is a single amino acid chain, comprising a &bgr;-strand that folds back on itself by means of a &bgr;-turn or some larger loop so that the entering and exiting strands form one or more anti-parallel &bgr;-sheet structures. The third major structural region, involving the residues between the 3rd and 4th conserved cysteines in
FIG. 1A
, is characterized by a three turn &agr;-helix referred to herein as the heel region (H). A ribbon trace of the heel peptide backbone is shown in FIG.
1
C.
The organization of the monomer structure is similar to that of a left hand where the knot

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