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
2001-03-29
2004-05-11
Guzo, David (Department: 1636)
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.
C530S324000, C530S325000, C530S326000, C514S012200, C514S013800, C514S014800
Reexamination Certificate
active
06734289
ABSTRACT:
BACKGROUND
A novel group of Gastric Antrum Mucosal Proteins that are gastrokines, is characterized. A member of the gastrokine group is designated AMP-18. AMP-18 genomic DNA, and cDNA molecules are sequenced for human and mouse, and the protein sequences are predicted from the nucleotide sequences. The cDNA molecule for pig AMP-18 is sequenced and confirmed by partial sequencing of the natural protein. The AMP-18 protein and active peptides derived from its sequence are cellular growth factors. Surprisingly, peptides capable of inhibiting the effects of the complete protein, are also derived from the AMP-18 protein sequence. Control of mammalian gastro-intestinal tissues growth and repair is facilitated by the use of the protein or peptides, making the protein and the derived peptides candidates for therapies.
Searches for factors affecting the mammalian gastro-intestinal (GI) tract are motivated by need for diagnostic and therapeutic agents. A protein may remain part of the mucin layer, providing mechanical (e.g., lubricant or gel stabilizer) and chemical (e.g. against stomach acid, perhaps helping to maintain the mucus pH gradient and/or hydrophobic barrier) protection for the underlying tissues. The trefoil peptide family has been suggested to have such general cytoprotectant roles (see Sands and Podolsky, 1996). Alternatively, a cytokine-like activity could help restore damaged epithelia. A suggestion that the trefoil peptides may act in concert with other factors to maintain and repair the epithelium, further underlines the complexity of interactions that take place in the gastrointestinal tract (Podolsky, 1997). The maintenance of the integrity of the GI epithelium is essential to the continued well-being of a mammal, and wound closing after damage normally occurs very rapidly (Lacy, 1988), followed by proliferation and differentiation soon thereafter to reestablish epithelial integrity (Nursat et al., 1992). Thus protection and restitution are two critical features of the healthy gastrointestinal tract, and may be important in the relatively harsh extracellular environment of the stomach.
Searches for GI proteins have met with some success. Complementary DNA (cDNA) sequences to messenger RNAs (mRNA) isolated from human and porcine stomach cells were described in the University of Chicago Ph.D. thesis “Characterization of a novel messenger RNA and immunochemical detection of its protein from porcine gastric mucosa,” December 1987, by one of the present inventors working with the other inventors. However, there were several cDNA sequencing errors that led to significant amino acid changes from the AMP-18 protein disclosed herein. The protein itself was isolated and purified only as an aspect of the present invention, and functional analyses were performed to determine utility. Nucleic acid sequences were sought.
SUMMARY OF THE INVENTION
A novel gene product designated Antrum Mucosal Protein 18 (“AMP-18”) is a gastrokine. The protein was discovered in cells of the stomach antrum mucosa by analysis of cDNA clones obtained from humans, pigs, and mice. The protein is a member of a group of cellular growth factors or cytokines, more specifically gastrokines. The AMP-18 cDNA sequences predict a protein 185 amino acids in length for both pig and man. The nucleotide sequences also predict a 20-amino acid N-terminal signal sequence for secreted proteins. The cleavage of this N-terminal peptide from the precursor (preAMP-18) was confirmed for the pig protein; this cleavage yields a secreted protein 165 amino acids in length and ca.18,000 Daltons (18 kD) in size. Human and mouse genomic DNA sequences were also obtained and sequenced. A human genomic DNA was isolated in 4 overlapping fragments of sizes 1.6 kb, 3 kb, 3.3 kb and 1.1 kb respectively. The mouse genomic DNA sequence was isolated in a single BAC clone.
The gastrokine designated AMP-18 protein is expressed at high levels in cells of the gastric antrum. The protein is barely detectable in the rest of the stomach or duodenum, and was not found, or was found in low levels, in other body tissues tested. AMP-18 is synthesized in lumenal surface mucosal cells, and is secreted together with mucin granules.
Compositions of AMP-18 isolated from mouse and pig antrum tissue stimulate growth of confluent stomach, intestinal, and kidney epithelial cells in culture; human, monkey, dog and rat cells are also shown to respond. This mitogenic (growth stimulating) effect is inhibited by specific antisera (antibodies) to AMP-18, supporting the conclusion that AMP-18, or its products, e.g. peptides derived from the protein by isolation of segments of the protein or synthesis, is a growth factor. Indeed, certain synthetic peptides whose amino acid sequences represent a central region of the AMP-18 protein also have growth-factor activity. The peptides also speed wound repair in tissue culture assays, indicating a stimulatory effect on cell migration, the process which mediates restitution of stomach mucosal injury. Thus, the protein and its active peptides are motogens. Unexpectedly, peptides derived from sub-domains of the parent molecule can inhibit the mitogenic effect of bioactive synthetic peptides and of the intact, natural protein present in stomach extracts.
There are 3 activities of the gastrokine proteins and peptides of the present invention. The proteins are motogens because they stimulate cells to migrate. They are mitogens because they stimulate cell division. They function as cytoprotective agents because they maintain the integrity of the epithelium (as shown by the protection conferred on electrically resistant epithelial cell layers in tissue culture treated with damaging agents such as oxidants or non-steroidal anti-inflammatory drugs NSAIDs).
The invention relates a group of isolated homologous cellular growth stimulating proteins designated gastrokines, that are produced by gastric epithelial cells and include the amino acid sequence VKEK/QKXXGKGPGGXPPK (SEQ ID NO: 1). An isolated protein of the group has an amino acid sequence as shown in FIG.
7
. The protein present in pig gastric epithelia in a processed form lacking the 20 amino acids which constitute a signal peptide sequence, has 165 amino acids and an estimated molecular weight of approximately 18 kD as measured by polyacrylamide gel electophoresis. Signal peptides are cleaved after passage through endoplasmic reticulum (ER). The protein is capable of being secreted. The amino acid sequence shown in
FIG. 3
was deduced from a human cDNA sequence. An embodiment of the protein is shown with an amino acid sequence as in
FIG. 6
, a sequence predicted from mouse RNA and DNA.
A growth stimulating (bioactive) peptide may be derived from a protein of the gastrokine group. Bioactive peptides rather than proteins are preferred for use because they are smaller, consequently the cost of synthesizing them is lower than for an entire protein.
In addition, a modified peptide may be produced by the following method:
(a) eliminating major protease sites in an unmodified peptide amino acid sequence by amino acid substitution or deletion; and/or
(b) introducing into the modified amino acid analogs of amino acids in the unmodified peptide.
An aspect of the invention is a synthetic growth stimulating peptide, having a sequence of amino acids from positions 78 to 119 as shown in FIG.
3
.
Another peptide has a sequence of amino acids from position 97 to position 117 as shown in FIG.
3
.
Another peptide has a sequence of amino acids from position 97 to position 121 as shown in FIG.
3
.
Another peptide has a sequence of amino acids from position 104 to position 117 as shown in FIG.
3
.
An embodiment of an isolated bioactive peptide has one of the following sequences: LDTMVKEQKGKGPGGAPPKDLMY (SEQ ID NO: 2) or KKLQGKGPGGPPPK (SEQ ID NO: 3). An embodiment of an inhibitor of a protein of the gastrokine group has the amino acid sequence KKTCIVHKMKK (SEQ ID NO: 4) or KKEVMPSIQSLDALVKEKK (SEQ ID NO: 5). (see also Table 1)
The invention also relates a pharmaceutical composition including at
Agarwal Kan
Martin Terence
Powell C. Thomas
Toback F. Gary
Barnes & Thornburg
Guzo David
Martin Alice O.
Sullivan Daniel M.
The University of Chicago
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