WO1991018015A1 - Alveolar surfactant proteins - Google Patents
Alveolar surfactant proteins Download PDFInfo
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- WO1991018015A1 WO1991018015A1 PCT/US1991/003490 US9103490W WO9118015A1 WO 1991018015 A1 WO1991018015 A1 WO 1991018015A1 US 9103490 W US9103490 W US 9103490W WO 9118015 A1 WO9118015 A1 WO 9118015A1
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- C—CHEMISTRY; METALLURGY
- C12—BIOCHEMISTRY; BEER; SPIRITS; WINE; VINEGAR; MICROBIOLOGY; ENZYMOLOGY; MUTATION OR GENETIC ENGINEERING
- C12N—MICROORGANISMS OR ENZYMES; COMPOSITIONS THEREOF; PROPAGATING, PRESERVING, OR MAINTAINING MICROORGANISMS; MUTATION OR GENETIC ENGINEERING; CULTURE MEDIA
- C12N15/00—Mutation or genetic engineering; DNA or RNA concerning genetic engineering, vectors, e.g. plasmids, or their isolation, preparation or purification; Use of hosts therefor
- C12N15/09—Recombinant DNA-technology
- C12N15/63—Introduction of foreign genetic material using vectors; Vectors; Use of hosts therefor; Regulation of expression
- C12N15/70—Vectors or expression systems specially adapted for E. coli
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- A—HUMAN NECESSITIES
- A61—MEDICAL OR VETERINARY SCIENCE; HYGIENE
- A61P—SPECIFIC THERAPEUTIC ACTIVITY OF CHEMICAL COMPOUNDS OR MEDICINAL PREPARATIONS
- A61P11/00—Drugs for disorders of the respiratory system
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- C—CHEMISTRY; METALLURGY
- C07—ORGANIC CHEMISTRY
- C07K—PEPTIDES
- C07K14/00—Peptides having more than 20 amino acids; Gastrins; Somatostatins; Melanotropins; Derivatives thereof
- C07K14/435—Peptides having more than 20 amino acids; Gastrins; Somatostatins; Melanotropins; Derivatives thereof from animals; from humans
- C07K14/785—Alveolar surfactant peptides; Pulmonary surfactant peptides
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- C—CHEMISTRY; METALLURGY
- C12—BIOCHEMISTRY; BEER; SPIRITS; WINE; VINEGAR; MICROBIOLOGY; ENZYMOLOGY; MUTATION OR GENETIC ENGINEERING
- C12N—MICROORGANISMS OR ENZYMES; COMPOSITIONS THEREOF; PROPAGATING, PRESERVING, OR MAINTAINING MICROORGANISMS; MUTATION OR GENETIC ENGINEERING; CULTURE MEDIA
- C12N15/00—Mutation or genetic engineering; DNA or RNA concerning genetic engineering, vectors, e.g. plasmids, or their isolation, preparation or purification; Use of hosts therefor
- C12N15/09—Recombinant DNA-technology
- C12N15/63—Introduction of foreign genetic material using vectors; Vectors; Use of hosts therefor; Regulation of expression
- C12N15/79—Vectors or expression systems specially adapted for eukaryotic hosts
- C12N15/85—Vectors or expression systems specially adapted for eukaryotic hosts for animal cells
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- A—HUMAN NECESSITIES
- A61—MEDICAL OR VETERINARY SCIENCE; HYGIENE
- A61K—PREPARATIONS FOR MEDICAL, DENTAL OR TOILETRY PURPOSES
- A61K38/00—Medicinal preparations containing peptides
Definitions
- the invention relates generally to alveolar surfactant proteins (ASP) which are useful in the manage ⁇ ment of certain respiratory diseases.
- ASP alveolar surfactant proteins
- the human lung is composed of a large number of small sacs or alveoli in which gases are exchanged between the blood and the air spaces of the lung. In healthy individuals, this exchange is mediated by the presence of a protein-containing surfactant complex which is synthesized in the icrosomal membranes of type II alveolar cells. In the absence of adequate levels of this complex, a lung cannot properly function—i.e., the alveoli collapse during exhalation, and cannot be subsequently re-inflated by inhaling. Thus, the untreated inability to synthesize this complex may result in death or in severe physical damage if left untreated.
- RDS respiratory distress syndrome
- hyaline membrane disease or idiopathic RDS.
- RDS is cur ⁇ rently the leading cause of infant mortality and morbidity in the United States and in other developed countries, and substantial efforts have been directed to diagnosis and treatment.
- Current treatment has focused on mechanical (pressure) ventilation which, at best, is an invasive stop-gap measure that often results in damage to the lung and other deleterious side effects, including complica ⁇ tions such as bronchopulmonary dysplasia, interstitial emphysema and pneumothorax.
- complica ⁇ tions such as bronchopulmonary dysplasia, interstitial emphysema and pneumothorax.
- Mental retardation has also resulted on occasion when this treatment was used (Hallman, M. , et al, Pediatric Clinics of North America (1982) 2!9:1057-1075) .
- the preferred surfactant substitute would be the lung surfactant complex itself.
- This complex is composed of apoprotein, two phospholipids (dipalmitoyl phosphocholine (DPPC) and phosphatidyl-glycerol (PG)) which are present in major amount, several lipids
- DPPC dipalmitoyl phosphocholine
- PG phosphatidyl-glycerol
- the apoprotein contains proteins having molecular weights of the order of 32,000 daltons and very hydro ⁇ phobic proteins of the order of about 10,000 daltons (King, R.J. et al, Am J Physio1 (1973) 2Z4:788-795) .
- the 15 32,000 dalton protein is glycosylated and contains hydroxyproline.
- Figures 1 and 2 of that application show the full-length cDNAs encoding precursors of canine and human SP-18- derived protein.
- the mature human protein is described to begin at the phenylalanine residue encoded at codon 201 of sthe full-length sequence.
- the construction of vectors for expression of the SP-18 precursor in both mammalian and bacterial cells is described in detail. Expression of the full-length precursor in mammalian cells yielded 43 kd and 25 kd precursor proteins as determined on SDS-PAGE.
- the 25 kd product is stated to be the glycosylated form of a 181 amino acid sequence spanning Phe-201—Glu-381 encoded in this sequence.
- Certain modified forms of the human protein to provide cleavage sites which may be helpful in providing more uniform production of mature forms of the precursor are also described.
- Bacterial expression of the SP-18 cDNA is also described.
- Figures 5 and 6 of PCT application WO87/06588 show the DNA and deduced amino acid sequences of two cDNA clones encoding the precursors for the smaller molecular weight 5 kd-8 kd proteins, designated SP-5. Like the SP- 18 cDNA, these clones are disclosed to encode a precursor for the smaller 5 kd-8 kd proteins isolated. The putative N-terminus is stated to be Phe or Gly at codons 24 and 25 of this sequence; it is postulated that the mature C- terminus of these proteins is at Gln-108 for the 8 kd protein and Glu-80 or Thr-65 for the 5 kd protein. Expression of this cDNA in mammalian and bacterial cells is also described. The disclosures of the two above-cited PCT ap ⁇ plications, O86/03408 and O87/06588, are incorporated herein by reference.
- SP-5-related peptides which are effective as lung surfactant proteins.
- These SP-5 analogs and fragments can be prepared by chemical synthesis or by recombinant methods and offer specific members of the repertoire of lung surfactant proteins useful in treatment of respiratory diseases and symptomologies.
- the invention provides specific forms of human SP-18- and SP-5-derived proteins. Some of these which are analogs of the encoded sequence display substantially reduced aggregation relative to the native protein, i.e., aggregation resulting from various types of intramolecular and intermolecular interaction, primarily covalent, disulfide bonding. These analogs are therefore much easier to extract and purify than the native polypeptide.
- the present SP-5-derived peptides result' from modifications in both the length and the amino acid sequence of human SP-5, but retain chemical and physical stability as well as the biological activity of the native polypeptide.
- compositions for treating respiratory distress syndrome are provided, the compositions formulated so as to contain an SP-18- and/or SP-5-related peptide.
- the invention also encompasses a method of treating respira ⁇ tory distress syndrome by administration of an SP-18- and/ or SP-5-related peptide.
- Figure 1 shows the DNA and deduced amino acid sequence of a cDNA encoding human SP-5-derived protein.
- Figure 2 shows an analogous cDNA variant encod ⁇ ing human SP-5-derived protein.
- Figure 3 is the amino acid sequence encoded by codons 1-74 of SP-5 DNA with the N-terminus and C-terminus as marked.
- Figure 4 is the human cDNA#3 encoding the SP-18 precursor protein.
- Figure 5 is the amino acid sequence of the canine 5 kd protein, with the N-terminus and C-terminus as marked.
- Figure 6 illustrates the correlation between the human and canine 18 kd proteins in the 10K ASP mixture.
- Figure 7 shows the DNA and amino acid sequences for chloramphenicol amino transferase (CAT) and human atrial natriuretic protein (hANP) .
- CAT chloramphenicol amino transferase
- hANP human atrial natriuretic protein
- Figure 8 shows the protein encoding the insert in pC210SP-C.
- Figure 9 is the BamHI/Hindlll insert of pC149SP- C which encodes a CAT-SP-5 fusion protein.
- Figures 10 through 18 are graphic representa ⁇ tions of the Ln vitro results obtained with various poly- peptides in standard tests for ASP activity.
- Figures 10 and 11 represent control testing done with the full human 5 kd protein, while Figures 12 through 18 represent the results obtained with various analogs of the protein.
- alveolar surfactant protein refers to apoprotein associated with the lung surfactant complex and having ASP activity as defined hereinbelow.
- the ASP of all species examined appears to comprise one or more components of relatively high molecular weight (of the order of 32 kd) designated herein “32K ASP” and one or more quite hydrophobic components of relatively low molecular weight (of the order of 5-20 kd) designated herein “10K ASP”.
- the "10K” group of proteins is derived from precursors encoded by two dif ⁇ ferent DNAs.
- One set of these DNAs designated SP-18, • encodes a precursor for proteins which appear at ap ⁇ proximately 18 kd on gels, but which show molecular weights of 10 kd under reducing conditions.
- the other DNA designated SP-5, encodes precursors for proteins which show molecular weights of 8 kd or 5 kd on gels.
- the invention herein concerns specific peptides related to those generated by the SP-18 and SP-5 precursor proteins.
- ASP activity for a protein is defined as the ability, when combined with lipids either alone or in combination with other proteins, to exhibit activity in the in vivo assay of Robertson, B., Lung (1980) 158:57-68.
- the sample to be assessed is administered through an endotracheal tube to fetal rabbits or lambs delivered prematurely by Caesarian section. (These "preemies” lack their own ASP, and are supported on a ventilator.) Measurements of lung compliance, blood gases and ventilator pressure provide indices of activity. Preliminary assessment of activity may also be made by an i vitro assay, for example that of King, R. J.
- hSP-5-derived peptides of the invention are intended to include polypeptides which are based on the amino acid sequence encoded by the human SP-5 DNA shown in Figures 1-2, especially those portions encoding the portion of the precursor amino acid sequence shown in Figure 3, and which have ASP activity as defined above. These SP-5 peptides are defined by the amino acid sequence
- AA-.. is Lys or Gin
- AA Arg or Gin
- Z is either Val or lie
- Y is OH, Gly-OH, Gly-Leu-OH, Gl -Leu-His-OH, or Gly-Leu-His-Y-, wherein Y. is a C-terminal extension sequence of 1-15 amino acids corresponding to amino acids 60-74 in Figure 3, and
- X is H or an amino acid sequence selected from the group consisting of H-AA 2 _-, H-AA 2g -AA justify_-, or X'-AA 2( -- AA 27 -, wherein:
- AA 27 is Pro or Ala
- AA 26 is lie or Ser
- X' is H or an N-terminal extension sequence of 1-25 amino acids corresponding to amino acids 1-25 in Figure 3, or the pharmaceutically acceptable salts or amides thereof, with the proviso that if X is Phe-Gly-Ile- Pro, Y is His-Y- wherein Y, is a C-terminal extension of amino acids 60-66 and all Z are Val, AA- p -AA-.- cannot be - Cys-Cys-Pro-Val-His-Leu-Lys-Arg-.
- Preferred embodiments of Y in hSP-5-derived peptides within the aforementioned group are those wherein Y is Gly-Leu-OH or Gly-Leu-His-Y., wherein Y. is the C- terminal extension corresponding to the 15 amino acids numbered 60-74 in Figure 3.
- Preferred embodiments of X are those wherein X is H, H-AA 27 ⁇ , H-AA abrupt fi -AA_ 7 -, Gly-AA_,- AA--.- or Phe-Gly-AA 2 g-AA 27 -.
- SP-5 analogs within the aforementioned group are those wherein both AA ⁇ p and AA-,-, are Ser. While not wish ⁇ ing to be bound by any theory, the inventors demonstrate herein that replacement of the two native Cys residues at these positions with Ser reduces intramolecular and intermolecular disulfide bonding and thus, correspond ⁇ ingly, reduces protein aggregation.
- the "hSP-18-derived peptides" of the invention include peptides having the amino acid sequences shown in Figure 4, which shows human clone #3, spanning positions 201 to a carboxy terminus at positions 275-281. Particularly preferred is the SP-18 protein spanning posi ⁇ tions 201-279.
- the shorter forms of the hSP-18 and hSP-5- derived peptides of the invention can be prepared by solid phase peptide synthesis or by other standard peptide synthetic means . These peptides are also conveniently produced using recombinant vectors and hosts.
- Expression may be achieved in a variety of host systems including, in particular, mammalian and bacterial systems, as well as yeast-based systems.
- host systems including, in particular, mammalian and bacterial systems, as well as yeast-based systems.
- other cell systems have become available in the art, such as the baculovirus vectors used to express protein encod ⁇ ing genes in insect cells.
- the expression systems set forth below are illustrative, and it is understood by those in the art that a variety of expression systems can be used.
- nucleotide sequences encoding the various hSP-5- and hSP-18-derived peptides are available through retrieval of cDNA or genomic DNA and/or using synthesis methods, these may be expressed in this variety of systems. If procaryotic systems are used, an intronless coding sequence should be used, along with suitable control sequences.
- the cDNA clones for any of the above ASP proteins may be excised with suitable restriction enzymes and ligated into procaryotic vectors. for such expression, or synthetic coding sequences may be used.
- the DNA For procaryotic expression of ASP genomic DNA, the DNA should be modified to remove the introns, either by site- directed mutagenesis, or by retrieving corresponding por ⁇ tions of cDNA and substituting them for the intron- containing genomic sequences.
- the intronless coding DNA is then ligated into expression vectors for procaryotic expression.
- genomic, cDNA, or synthetic (or partially synthetic) ASP-encoding sequences may also be used directly in an expression system capable of processing introns, usually a mammalian host cell culture.
- the genomic or other sequences can be ligated downstream from a controllable mammalian promoter which regulates the expression of these sequences in compatible cells.
- proteins of the invention of sufficiently short length such as the proteins related to the SP-5-encoded protein, may be prepared by standard protein synthesis methods.
- the ASP protein may be produced either as a mature protein or a fusion protein, or may be produced along with a signal sequence in cells capable of process ⁇ ing this sequence for secretion. It is sometimes advanta ⁇ geous to obtain secretion of the protein, as this minimizes the difficulties in purification; thus it is preferred to express the human ASP gene which includes the codons for native signal sequence in cells capable of ap ⁇ intestinalte processing. It has been shown that cultured mammalian cells are able to cleave and process heterologous mammalian proteins containing signal sequences, and to secrete them into the medium (McCormick, F., et al, Mol Cell Biol (1984) 4.:166).
- the ASP protein When secreted into the medium, the ASP protein is recovered using standard protein purification techniques. The purification process is simplified, because relatively few proteins are secreted into the medium, and the majority of the secreted protein will, therefore, already be ASP. However, while the procedures are more laborious, it is well within the means known in the art to purify this protein from sonicates or lysates of cells in which it is produced intracellularly in fused or mature form. One such method is illustrated below.
- the purified proteins and analogs can be used alone and in combination in pharmaceutical compositions appropriate for administration for the treatment of respiratory distress syndrome in infants or adults.
- the compositions of the invention are also useful in treating related respiratory diseases such as pneumonia and bronchitis.
- the complex contains about 50% to almost 100% (wt/wt) lipid and 50% to less than 1% ASP; preferably ASP is 5%-20% of the complex.
- the lipid portion is preferably 70%-90% (wt/wt) DPPC with the remainder unsaturated phosphatidyl choline, phosphatidyl glycerol, triacylglycerols, palmitic acid, palmitoyl oleyl phosphoglyceride (POPG), or mixtures thereof.
- POPG palmitoyl oleyl phosphoglyceride
- the complex is assembled by mixing a solution of ASP with a suspension of lipid liposomes, or by mixing the lipid protein solutions directly in the presence of detergent or an organic solvent.
- Preferred ASP compositions comprise either complexes with the isolated 10K mixture, the SP-5- or SP- 18-encoded proteins alone, active SP-5 analogs, alone or in combination, a complex of the 10K and 32K mixtures, or a complex of an SP-18 or SP-5-related protein and the 32K mixture.
- a preferred protein ratio i.e., 32K:10K or 32K.-SP-18 or 32K:SP-5—is typically in the range of 3:1 to 200:1, preferably about 10:1 to 5:1.
- the 32K protein may be added directly to an aqueous suspension of phospholipid vesicles in an aqueous solu ⁇ tion. Because it is so hydrophobic, the 10K protein is added to the lipids in an organic solvent, such as chloro ⁇ form, the solvents evaporated, and the vesicles re-formed by hydration.
- the surfactant complex administered will contain an effective amount of the 10K mixture, or of the individual SP-5 or SP-18 proteins, or the hSP-5 or hSP-18- derived peptides of the invention in admixture with the 32K ASP.
- the individual hSP-5 or hSP-18-derived peptides can be used.
- Particularly preferred compositions contain the ratios of 32K:10K type protein as set forth above, along with a suitable amount of lipid component, typically in the range of 50% to almost 100% of the total composition.
- compositions containing the complex are preferably those suitable for endotracheal administration, i.e., generally as a liquid suspension, as a dry powder "dust” or as an aerosol.
- the complex is suspended in a liquid with suit ⁇ able excipients such as, for example, water, saline, dextrose, or glycerol and the like.
- suit ⁇ able excipients such as, for example, water, saline, dextrose, or glycerol and the like.
- the compositions may also contain small amounts of nontoxic auxiliary substan ⁇ ces such as pH buffering agents, for example, sodium acetate or phosphate.
- pH buffering agents for example, sodium acetate or phosphate.
- the complex is supplied in finely divided form along with an additional surfactant and propellent.
- Typical surfactants which may be administered are fatty acids and esters, however, it is preferred, in the present case, to utilize the other components of the surfactant complex, DPPC and PG.
- Useful propellants are typically gases at ambient conditions, and are condensed under pressure. Lower alkanes and fluorinated alkanes, such as Freon, may be used.
- the aerosol is packaged in a container equipped with a suitable valve so that the ingredients may be maintained under pressure until released.
- the surfactant complex is administered, as ap ⁇ intestinalte to the dosage form, by endotracheal tube, by aerosol administration, or by nebulization of the suspen ⁇ sion or dust into the inspired gas. Amounts of complex between about 0.1 mg and 200 mg, preferably 50-60 mg/kg body weight, are administered in one dose. For use in newly born infants, one administration is generally suf ⁇ ficient. For adults, sufficient reconstituted complex is administered to replace demonstrated levels of deficiency (Hallman, M. , et al, J Clinical Investigation (1982) 7_0:673-682) .
- one or more ASP proteins including the hSP-18- and hSP-5-derived peptides described herein can be used as a carrier or vehicle for the delivery of other biologically active and important molecules to the lung and/or through the lung to the blood vasculature. In the latter case, delivery of agents important for other organs in the body can be effected.
- the carboxyl terminus of the 5 kd protein in the 10K mixture is difficult to ascertain, as the protein is derived from a large precursor having a molecular weight of about 20,500 daltons.
- Mass spectrometric analysis of isolated native canine protein indicated the apparent carboxyl terminus to be His-59, as shown in the amino acid sequence for the canine protein in Figure 5.
- Amino acid sequence analysis of enzymatic cleavage fragments of native SP-5 protein isolated from human lung lavage fluid has indicated a carboxyl terminus at Leu-58 (see Johansson, J. et al., FEBS Letters, 232, No. 1 (1988), 61- 64).
- SP-5 analogs having carboxyl terminii at both Leu-58 and His-59 and shown them to be essentially equivalent in both the in vitro and in vivo assays described herein.
- analogs which have been demonstrated to be comparatively equivalent are the human SP-5 analog proteins having an amino terminus as Gly-25, Ser residues at AA-28 and AA-29, and a carboxyl terminus at either Leu-58 or His-59.
- N-terminus of the human 5 kd protein was • determined by direct amino acid sequencing to be phenylalanine (at position 24 as shown in Figure 3), but truncated species were also found having glycine at 25 and isoleucine at 26 as alternative N-termini.
- the carboxy terminus of the 18 kd protein in the 10K mixture was analyzed using quantitative amino acid composition, amino acid sequencing of the protein begin ⁇ ning at the N-terminus, carboxypeptidase Y digestion (an enzyme which cleaves amino acids from the C-terminus of proteins), and mass spectrometry.
- Figure 6 shows the amino acid sequences of the human and canine proteins.
- hSP-18-derived proteins and hSP-5-derived proteins disclosed herein can be prepared using re ⁇ combinant techniques.
- Vectors suitable for expression of the various ASP-encoding sequences in mammalian cells, which are also capable of processing intron-containing DNA, were constructed. In these vectors, expression is controlled by the metallothionein II (hMTII) control sequences, as described in WO87/06588.
- hMTII metallothionein II
- All of these vectors have insertion sites which permit a coding sequence to placed under control of the metallothionein promoter.
- Those vectors including "Apo” in their designation also contain the 3' terminal regula ⁇ tory signals associated with the ApoAI gene downstream of the insert region; those containing "9” or “10” in their designation also contain operable SV-40 viral enhancers.
- pMTApolO was digested with BamHI, blunted and ligated to the cDNA sequences obtained from the clone #3 of 1275 bp encoding SP-18 precursor, as a blunted fragment. This was done by isolating an EcoRI/BamHI (partial) fragment from cDNA #3 avoiding the BamHI site at nucleotide 663 and subcloning into EcoRI/BamHI-digested pUC9. The desired fragment was excised with EcoRI and Hindlll, blunted with Klenow, and then inserted into pMTApolO. The resulting vector, pMT(E) :SP-18-40k, was transformed into CHO cells.
- analogous vectors were constructed, including SP-18-encoding DNA, using standard site-specific mutagenesis techniques to provide sites for in vitro cleavage of the precursor protein which was, apparently, produced in CHO cells from the full length sequence.
- the 381 amino acid precursor was modified to replace each of the Gln-199:Gln-200 and Arg-286 :Ser-187 by Asn:Gly, to provide sites cleavable by hydroxylamine (which cleaves between Asn and Gly) .
- Glu residues at Glu-198 and Glu-291 are converted by converting the Glu- 251 to Asp.
- the 43 kd precursor is cleaved with Staph V8 to yield the putative mature SP-18 protein with an ad ⁇ ditional Gln-Gln at the amino terminus, and Pro-Thr-Gly- Glu at the carboxy terminus.
- Glu residues can be placed in positions 200 and/or 287.
- Example 2 Mammalian Expression of DNA Encoding hSP-18- and hSP-5-Derived Peptides
- DNA sequences encoding the hSP-5- and hSP-18- derived proteins of the invention described herein are placed into BamHI-digested pMT-ApolO to obtain the ap ⁇ intestinalte expression vectors.
- the DNA encod ⁇ ing the desired protein is ligated in operable linkage to a signal sequence effective in CHO cells. Transformation into CHO cells and expression of the inserted sequences is conducted as described as follows.
- CHO-Kl cells Chinese hamster ovary (CHO)-Kl cells are grown on medium composed of a 1:1 mixture of Coon's F12 medium and DME21 medium with 10% fetal calf serum.
- the competent cells are co-transformed with the vector of interest and pSV2:NE0 (Southern, P., et al, J Mol Appl Genet (1982) _1:327-341).
- pSV2:NE0 contains a functional gene confer ⁇ ring resistance to the neomycin analog G418.
- 0.5 ug of pSV2:NEO and 5 ug or more of the expression vector DNA are applied to a 100 mm dish of cells.
- the calcium phosphate-DNA co-precipitation accord ⁇ ing to the protocol of Wigler, M. , et al. Cell (1979) 1 ⁇ :777-785, is used with the inclusion of a two minute "shock" with 15% glycerol in PBS after four hours of exposure to the DNA.
- the cells are seeded at 1/10 confluence, grown overnight, washed 2x with PBS, and placed in 0.5 ml Hepes-buffered saline containing the CaP0 4 'DNA co-precipitate for 15 min and then fed with 10 ml medium. The medium is removed by aspiration and replaced with 15% glycerol in PBS for 1.5-3 min. The shocked cells are washed and fed with culture medium. Until induction of MT-II-controlled expression, the medium contains F12/DMEM21 1:1 with 10% FBS. A day later, the cells are subjected to 1 mg/ l G418 to provide a pool of G418-resistant colonies. Successful transformants, also having a stable inheritance of the desired plasmid, are then plated at low density for purification of clonal isolates.
- the transformants are assayed for production of the desired protein, first as pools, and then as isolated clones in multi-well plates.
- the plate assay levels are somewhat dependent on the well size—e.g. results from 24 well plates are not directly comparable with those from 96 well plates.
- Clones which are found by plate assay to be producing the protein at a satisfactory level can then be grown in production runs in roller bottles. Typically, the levels of production are higher when the scale-up is done. For this reason, typically 100-200 or more individual clones are assayed by various screening methods on plates and 5-10 of the highest producers are assayed under production conditions (roller bottle) .
- the cells are washed with PBS and refed with serum-free McCoy's containing the zinc chloride and ascorbate. After 12 hours, the conditioned media are harvested.
- the unglycosylated forms of the ASP proteins can be produced in bacteria.
- the gene can be expressed, for example, to produce a 181 amino acid precursor represent ⁇ ing met-preceded residues 201-381 or as a hydroxylamine- cleavable fusion protein precursor with a 15 residue beta- galactosidase leader.
- a modified cDNA #3 encoding amino acids 201-381 of the cDNA, preceded by ATG is inserted into the Trp-controlled vector pTrp-233, described in WO87/06588, between the EcoRI site and the HindiII site to give pTrp-20. This construct produces a protein of M.W. 20 kd.
- the pTrp-20 and pBGal-20 plasmids are used to transform E. coli W3110 to ampicillin resistance. Rapidly growing cultures of pTrp-20/W3110 or pBGal-20/W3110 in M9 medium ( 1 x M9 salts, 0.4% glucose, 2 mg/ml thiamine, 200 ug/ml MgSO>'7H 2 0, 0.5% casamino acids, are treated with 100 ug/ml IAA (3-beta-indoleacrylate, Sigma I-1625J to induce the trp promoter.
- M9 medium 1 x M9 salts, 0.4% glucose, 2 mg/ml thiamine, 200 ug/ml MgSO>'7H 2 0, 0.5% casamino acids
- WO87/06588 also describes vectors encoding modified SP-18 protein sequences providing cleavage sites for expression in bacteria.
- codons encoding Arg-286 :Ser-287 were altered to encode Asn-Gly; introduc ⁇ ing the hydroxylamine-sensitive cleavage site, or the codon for Ser-287 was replaced by a codon for Asp, result ⁇ ing in the acid-sensitive Asp-Pro cleavage site, or the codon for Glu-251 was replaced with a codon for Asp, al ⁇ lowing cleavage with Staph V8 at Glu-291 without cleaving the desired protein.
- constructs would be expected to generate SP-18 having the amino acid sequence of 287- 381 or 291-381. Also, in both pTrp-20 and pBGal-20, the sequences 3' to the putative carboxy terminal Arg-286 were deleted and replaced by a stop codon, putatively generat ⁇ ing peptides representing SP-18 codon positions 201-286. Neither construct resulted in labeled protein of proper size after induction, however.
- SP-5-derived proteins WO87/06588 describes, analogous to pTrp-20, the insertion of the fragment of the cDNA #18 extending from Gly-25 preceded by ATG to Ile-197 of the Sp-5 "precursor" into EcoRI/Hindlll digested pTrp-233 to give pTrp-5 and into the pBGal host vector to give pBGal-5 wherein the SP-5 sequence is fused to a beta-galactosidase leader through a hydroxylamine- sensitive Asn-Gly.
- These vectors putatively generate SP-5-derived proteins spanning 25-197.
- cleavage with Staph V8 of the protein expected from this construct at the Glu preceding Phe-24 and at Glu-66 would yield an SP-5-derived peptide spanning positions 24-66.
- hSP-18- and hSP-5-derived peptides may be advantageous to express as a cleavable fusion protein with an upstream stabilizing sequence.
- CAT chloramphenicol acetyltransferase
- Exemplified are vectors encoding 35 amino acids of an SP-5-derived peptide, i.e., hSP-5(24-59) joined to CAT through a 6 amino acid linker, Ser-Asp-Pro-Glu-Phe-Asn. As described in the above-referenced application. These vectors are prepared as follows .
- the vectors including the SP-18- and SP-5- derived proteins are obtained from a host vector constructed with an insert encoding human atrial natriuretic peptide (hANP).
- This intermediate vector, pChNF109 is constructed as follows.
- Expression vector pChNF109 encodes a 241 amino acid CAT-hANP hybrid protein containing an endoproteinase Glu-C proteolytic cleavage site.
- the DNA and encoded amino acid sequences of CAT and hANP are shown in Figure 7. Most of the CAT gene (amino acids 1-210) has been joined in-frame to the hANP(102-126) gene and cleavage site (26 amino acids) through a linker sequence (5 amino acids).
- This vector was constructed from plasmids pTrp233, pCAT21, and phNF75 which supplied the plasmid backbone and trp promoter-operator, the CAT gene, and the hANP(102-126) gene and cleavage site, respectively.
- Plasmid pTrp233 was described in WO87/06588. Plasmid pCAT21 was constructed by insertion of the CAT gene (from transposon Tn9, Alton and Vapnek, Nature (1979) 282:864-869) into pTrp233 under the control of the trp promoter-operator. Plasmid pAL13ATCAT (a plasmid contain ⁇ ing Tn9, disclosed in co-pending U.S. Serial No.
- Plasmid phNF75 was constructed by insertion of a synthetic hANP gene preceded by a proteolytic cleavage site into plasmid pBgal (Shine et al, Nature (1980) 285:456) . Eight oligodeoxyribonucleotides were assembled into a synthetic hANP(102-126) gene preceded by an endoproteinase Glu-C cleavage site. The synthetic gene was ligated into BamHI-digested pTrp233.
- Plasmid phNF73 was digested with EcoRI, the hANP gene purified using polyacrylamide gel electrophoresis, and the gene ligated into EcoRI-digested pBgal to obtain phNF75.
- Expression vector pChNF109 was constructed by insertion of DNA fragments containing CAT, hANP and the proteolytic cleavage site, and a linker sequence into plasmid pTrp233. Plasmid phNF75 was digested with EcoRI and Hindlll, the approximately 80 bp EcoRI-Hindlll frag ⁇ ment containing hANP was purified by polyacrylamide gel electrophoresis, and ligated into EcoRI/Hindlll-digested pTrp233 to obtain phNF87. pCAT21 was digested with Seal, and BamHI synthetic linkers (5'-CGGATCCG-3' ) were attached to the blunt termini.
- the ligation was digested with BamHI and the approximately 740 bp BamHI fragment was purified by agarose gel electrophoresis.
- the BamHI cas ⁇ sette and BamHI-digested plasmid phNF87 were ligated to obtain pChNF109 having the CAT gene fused in-frame to the endoproteinase Glu-C cleavage site followed by the hANP gene.
- human SP-5- and SP-18-derived peptides are expressed as fusions with por ⁇ tions of bacterial CAT.
- the surfactant peptides are joined to the carboxy terminus of the CAT sequences through a hydroxylamine-sensitive asparagine-glycine link ⁇ age.
- the CAT-surfactant fusions are expressed from the tryptophan promoter of the bacterial vector pTrp233.
- SP-18 expression vector pC210SP-B encodes a fu ⁇ sion protein of 293 residues in which 210 amino acids of CAT are joined to the 76 amino acids of SP-18 through a linker of 7 amino acids containing the hydroxylamine- sensitive cleavage site. Cleavage of the fusion with hydroxylamine releases a 77 amino acid SP-18 product containing 76 residues of SP-18, plus an amino-terminal glycine residue.
- the EcoRI site was joined at the PstI site through two complementary oligonucleotides encoding the hydroxylamine sensitive cleavage site as well as the amino-terminal residues of mature SP-18 (oligo #2307: 5'-AAT TCA ACG GTT TCC CCA TTC CTC TCC CCT ATT GCT GGC TCT GCA-3' and oligo #2308: 5'-GAC CCA GCA ATA GGG GAG AGG AAT GGG GAA ACC GTT G-3' ) .
- the SphI site was joined to the Hindlll site of pTrp233 through a second set of complementary nucleotides encoding the carboxy-terminal residues of the SP-18 peptide (oligo #3313: 5'-AGC TTA CCG GAG GAC GAG GCG GCA GAC CAG CTG GGG CAG CAT G-3' and oligo #3314: 5'-CTG CCC CAG CTG GTC TGC CGC CTC GTC CTC CGG TA-3').
- the expression plasmid was used to transform E. coli stain W3110 to ampicillin resistance. Rapidly grow ⁇ ing cultures of pC210SP-B/W3110 in M9 medium were made 25 ug/ml IAA (3-beta indoleacrylate, Sigma 1-1625) to induce the trp promoter. By 1 hr after induction, refractile cytoplasmic inclusion bodies were seen by phase contrast microscopy inside the still-growing cells.
- An amino acid sequence of a 251 residue fusion protein is encoded in plasmid pC210SP-C.
- the 210 amino acids of CAT are joined to 35 amino acids of mature SP-5 through a linker of 6 amino acids.
- the SP-5 comprises 14% of the total fusion.
- Figure 8 is shown the nucleotide sequence of the insert in pC210SP-C, in which the EcoRI-Hindlll frag ⁇ ment of pC210SP-B containing SP-18 sequences has been replaced by a segment of human SP-5 cDNA #18 extending from the ApaLI site at nucleotide 123 to the Avail site at nucleotide 161.
- the EcoRI site of the CAT vector was joined to the SP-5 ApaLI site through two complementary oligonucleotides encoding the hydroxylamine sensitive cleavage site as well as the amino-terminal residues of mature SP-5 (oligo #2462: 5 '-AAT TCA ACG GCA TTC CCT GCT GCC CAG-3' and oligo #2463: 5'-TGC ACT GGG CAG CAG GGA ATG CCG TTG-3').
- the Avail site of SP-5 was joined to the Hindlll site of pC210SP-B through a second set of com ⁇ plementary nucleotides encoding the carboxy-terminal residues of mature SP-5 and a stop codon (oligo #2871: 5'- AGC TTA GTG GAG ACC CAT GAG CAG GGC TCC CAC AAT CAC CAC GAC GAT GAG-3' and oligo #2872: 5 '-GTC CTC ATC GTC GTG GTG ATT GTG GGA GCC CTG CTC ATG GGT CTC CAC TA-3 ' ) .
- the amino acid sequence of the 217 residue fu ⁇ sion protein encoded by pC179SP-C is a slight modification of the sequence shown in Figure 8.
- the 179 amino acids of CAT are joined to 35 amino acids of mature SP-5 through a linker of 3 amino acids (Glu, Phe, Asn) .
- SP-5 comprises 16% of the total fusion.
- pC179SP-C a portion of the CAT sequence was removed from pC210SP-C.
- pC210SP-C a DNA fragment extending from the Ncol site at nt 603 ( Figure 8) to the EcoRI site at nt 728 was removed, and the Ncol and EcoRI cohesive ends were rejoined with two complementary oligonucleotides (oligo #3083: 5'-CAT GGG CAA ATA TTA TAC GCA AG-3' and oligo #3084: 5'-AAT TCT TGC GTA TAA TAT TTG CC-3' ) .
- 31 residues of CAT, and 3 residues of the linker polypeptide are missing in the new fusion protein encoded by vector pC179SP-C.
- the amino acid sequence of the 187 residue fu ⁇ sion protein encoded by pC149SP-C is a slight modification of the sequence shown in Figure 8.
- the 149 amino acids of CAT are joined to 35 amino acids of SP-5 through a linker of 3 amino acids (Glu, Phe, Asn) .
- SP-5 comprises 18.7% of the total fusion.
- the amino acid sequence of the 144 residue fu ⁇ sion protein encoded by pC106SP-C is a slight modification of the sequence .shown in Figure 8. .
- the 106 amino acids of CAT are joined to 35 amino acids of SP-5 through a linker of 3 amino acids (Glu, Phe, Asn) .
- SP-5 comprises 24% of the total fusion.
- pC106SP-C was constructed by replacing the EcoRI fragment of pC210SP-C (nt 302 to nt 728, Figure 8) with two sets of complementary oligos which were annealed, then ligated together through a region of homology (oligo #3079: 5'-AAT TCC GTA TGG CAA TGA AAG ACG GTG AGC TGG TGA TAT GGG ATA GTG TTC ACC CTT GT-3 ' was annealed with oligo #3085: 5'-ACA CTA TCC CAT ATC ACC AGC TCA CCG TCT TTC ATT GCC ATA CGG-3' oligo #3080: 5 '-TAC ACC GTT TTC CAT GAG CAA ACT GAA ACG TTT TCA TCG CTC TGG G-3' was annealed with oligo #3078: 5'-AAT TCC CAG AGC GAT GAA AAC GTT TCA GTT TGC TCA TGG AAA ACG
- Each SP-5 expression vector was used to transform E. coli strain W3110 to ampicillin resistance. Rapidly growing cultures of expression strains were induced as described above. By 1 hr after induction, refractile cytoplasmic inclusion bodies were seen by phase contrast microscopy inside the still-growing cells. 5 hr after induction, the equivalent of 1 O.D.-.- ⁇ of cells were pelleted by centrifugation, then boiled for 5 min in SDS sample buffer for electrophoresis in a 12% SDS- polyacrylamide gel followed by staining with Coomassie Blue. Proteins of the correct MW were obtained from these vectors. The hybrid CAT:SP-5 protein produced by each vector is estimated to comprise 15-20% of the total cell protein in the induced cultures .
- site-directed mutagenesis can be used. For example, starting with pC149SP-C, the BamHI/Hindlll frag ⁇ ment shown in Figure 9 is excised and cloned into mp ⁇ . The insert is then subjected to site-directed mutagenesis using the primer 5 '-GTG-CAC-TGG-GGA-GGA-GGG-AAT-GCC-3 ' as shown in the figure. This results in the codons for cysteine at positions 28 and 29 of the mature protein be ⁇ ing converted to codons for serine in these positions. The mutagenized BamHI/HindiII fragment is then isolated and then ligated back into the expression vector pTrp233 .
- constructs for example, C149SP-C or the corresponding mutagenized vector are then transformed into -31-
- E. coli and the transformed cells are cultured using standard techniques.
- the trp promoter is induced by treatment of the culture with IAA, and expression of the gene encoding the desired SP-5-derived peptide is obtained.
- the bacterial cells are then lysed by passage through a homogenizer.
- the insoluble inclusion bodies released by this treatment are recovered by centrifugation at 5000 rpm for 30 minutes or by filtration through 0.1 micron Millipore Durapore membranes.
- the resulting inclu ⁇ sion bodies are washed 3x with either 1% Triton X-100 or in 1.0 M guanidine hydrochloride, 10 mM EDTA, 20mM Tris- HC1, pH 8.0 and 100 mM collected by centrifugation or filtration as described.
- the inclusion bodies are solubilized in 20 mM Tris-HCl, pH 8.0, 6M guanidine HCl, 50 mM DTT, at a concentration of 15-25 ng/ml.
- the fusion protein containing the SP-5- derived peptide is cleaved by addition of an equal volume of hydroxylamine (2M) in 6M guanidine hydrochloride, 50mM DTT containing 0.2 M K-CO,. The cleavage is allowed to proceed for 48 hours. The solution is diluted to 1.2 M guanidine HCl (5 fold) with 10 mM Tris, pH 8.0, 20 mM DTT. This causes the proteins in the cleavage reaction mix to precipitate; this precipitate is collected by centrifuga ⁇ tion.
- the SP-5-derived peptide is then extracted from the majority of the remaining protein with a chloroform:methanol (1:1, v:v) solution containing 100 mM DTT. Enough of this solution is added to the precipitate so that the SP-5-derived peptide is 1 g/ml; and the material is extracted for six hours at room temperature. The extract is then centrifuged to remove insoluble material. The supernatant from this centrifugation is then mixed with sulfo-propyl cellulose (0.04 ml of sulfo-propyl cellulose) per mg of SP-5 peptide in the extract. The extract is acidified with HCl to bring the concentration to 5mM.
- the sulfo-propyl cellulose is extensively washed with a buffer containing 19 parts chloroform, 19 parts methanol, and 2 parts 0.1 N HCl (wash buffer). Additional washes are performed with a solution of wash buffer adjusted to 50 mM DTT with solid DTT and made 20 mM sodium acetate, pH 4, by addition of a stock solution of 2M Na acetate.
- the SP-5 peptide is then eluted with wash buffer containing 50 mM DTT and adjusted to 50 mM Na-acetate, pH 6, by adding a stock solution of 2M Na-acetate, pH 6.
- the SP-cellulose is removed by filtration.
- the final step of purification is gel permeation chromatography over Sephadex LM-60 using the wash buffer described above as the eluant.
- Example 4 Synthetic Peptides Various synthetic peptides based on the human SP-5-encoded mixture have been synthesized using standard techniques . Referring to Figure 3, the following peptides have been synthesized using solid phase peptide synthesis:
- hSP-5(24-74) i.e., beginning at Phe-24 and ending at Gly-74;
- the synthetic peptides were prepared by standard t-BOC solid-phase peptide synthesis methodology using an
- ⁇ 5 method of purification is gel filtration using LH-60 columns in a solution of chloroform and methanol (1:1 v/v) containing 0.5% HCl.
- Each of the synthetic peptides was tested for n vitro and in vivo activity as in Example 5.
- Peptide 24-74 was quite effective compared to the saline control solution, and nearly as effective as the rabbit surfactant positive control. It should be noted that the native 5 kd protein is as effective as the surfactant control.
- ins values at 10,20 and 30 minutes refer to the inspiratory pressures (cm H ⁇ O) required to maintain tidal volumes in the lung of 6-7 mis/kg body weight. (The lower the pressure on the ventilator, the better.)
- Peptide 24-61 was found to be as effective in vivo as native surfactant. In fact, in certain animal experiments, the P-__ was lower in the animals treated with 24-61 than in the surfactant control. In all cases, the phospholipid mixture was DPPC:egg PG (7:3, w/w) and the ratio of PL to protein was 10:1. It is preferable that the peptide be administered in conjunction with ad ⁇ ditional lipids as described infra, and, accordingly, in the studies summarized in Table 2, 10 wt.% palmitic acid was incorporated into the formulations. Thus, the formula was DPPC:PG:Peptide:fatty Acid in a weight ratio of about 10:1:1:1.
- *0 refers to a pneumothorax before the end of the experiment.
- 24-61 synthetic peptide was mixed with PL:Palmitic acid:syn pep (10:1:1) by weight.
- the phospholipid (PL) is DPPC:PG (7:3) by weight.
- Example 6 Additional hSP-5 Peptides
- the following SP-5-derived peptides of the invention have been synthesized using the CAT fusion method of Example 3 or by solid phase synthesis and tested for ASP activity:
- hSP-5(28-59) i.e., beginning at Cys-28 and ending at His-59;
- D5K#2 (A ⁇ S D S A -hSP-5(24-59)) , i.e., beginning at Phe-24 and ending at His-59, with serines substituted for the cysteines at positions 28 and 29 and alanine substituted for proline at positions 27 and 30; and
- D5K#3 (S 26 A 27 S 28 S 29 A 30 Q 31 K 32 , A 33 - hSP-5(25-59) , beginning with Gly-25 and ending at His-59, with amino acids 26 through 33 replaced as indicated.
- each of the peptides was purified as described above.
- Each of the synthetic peptides was tested for in. vitro and jji vivo activity, using the above-described procedures.
- Figure 10 represents a control, and is a graphic representation of surface pressure versus time obtained with the full length human 5 kd protein formulated with DPPC.'PG and palmitate (ratio of DPPC:PG:palmitate:protein approximately 7:3:1:0.5) .
- Figure 11 is similar, representing the results obtained with the full length human 5 kd protein formulated with the same components (7:3:1:1) and tested at a pH of 7.5 and a temperature of 37°C.
- the SP-5-derived synthetic peptide, hSP-5( 30- 59 ) has reduced activity (Figure 13). That this loss of activity is not specifically due to the absence of the cysteine residues at positions 28 and 29 is suggested by the observation that the D5K#1 synthetic peptide (S 28,S29- hSP-5(24-59) ) , in which these cysteine residues were replaced with serines, showed full activity (Figure 15) .
- the D5K#1 peptide (S 28 ,S 29 -hSP-5(24-59 ) ) was produced recombinantly and purified as described in 28 29 Example 2.
- the recombinant SP-5 peptide (S ,S -hSP-
- the phospholipid formulation was 7 parts DPPC:3 parts POPG where POPG is (palmitoyl-oleoyl PG) .
- the final formula ⁇ tion was 20 parts phospholipid mixture:1 part protein by weight.
- the Ser-Ser analog was highly active in vitro and at least as effective as purified rabbit surfactant in vivo.
- the D5K#1 synthetic peptide (S 28 ,S 29 -hSP-5(24- 59)) peptide analog was also active in vivo when tested according to the procedure set forth in W087/06588, as shown below:
- n 4 cys—> ser 18.0+0.7 (SD) cm of H j O rabbit 18.5+1.2 cm of H 2 0 surfactant
- Recombinant S ,S -hSP-5(24-59) has also been tested in vivo and is at least as effective as purified rabbit surfactant.
- the peptide S 28 ,S 29 -hSP-5(25-59 ) was produced recombinantly in bacteria as described in Example 3 and purified. Using standard techniques of site-directed mutagenesis, the vector for this peptide was modified to eliminate the codon for His(59). The vector was used to
- the recombinant peptide S ,S -hSP-5(24-58) i.e., the peptide without the Ser-Ser mutation, were tested side-by-side using the standard protocol for the in vitro assay with the following modification: the phospholipid formulation was 7 parts DPPC:3 parts POPG. The final formulation was 20 parts phospholipid mixture:1 part protein by weight.
- the superimposed plots of surface pressure, shown in Figure 17, indicate that the Ser-Ser analog was at least as effective ij vitro as the corresponding recombinant protein having the native sequence.
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Abstract
Description
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Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CA002083177A CA2083177C (en) | 1990-05-17 | 1991-05-17 | Alveolar surfactant proteins |
Applications Claiming Priority (2)
Application Number | Priority Date | Filing Date | Title |
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US07/524,360 US5104853A (en) | 1984-12-11 | 1990-05-17 | Alveolar surfactant proteins having cys to ser mutations |
US524,360 | 1990-05-17 |
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WO1991018015A1 true WO1991018015A1 (en) | 1991-11-28 |
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PCT/US1991/003490 WO1991018015A1 (en) | 1990-05-17 | 1991-05-17 | Alveolar surfactant proteins |
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US (1) | US5104853A (en) |
EP (1) | EP0538273A4 (en) |
JP (3) | JPH05509301A (en) |
CA (1) | CA2083177C (en) |
WO (1) | WO1991018015A1 (en) |
Cited By (11)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
WO1995032992A1 (en) * | 1994-05-31 | 1995-12-07 | Byk Gulden Lomberg Chemische Fabrik Gmbh | Synthetic peptide analogs of lung surfactant protein sp-c |
US5683982A (en) * | 1991-11-04 | 1997-11-04 | Merrell Pharmaceuticals Inc. | Synthetic lung surfactant having antioxidant properties |
WO2000047623A1 (en) * | 1999-02-12 | 2000-08-17 | Chiesi Farmaceutici S.P.A. | Artificial peptides having surface activity and the use thereof in the preparation of artificial surfactant |
US6737243B1 (en) | 1998-07-24 | 2004-05-18 | Altana Pharma Ag | Determination of the hydrophobic pulmonary surfactant protein SP-C |
US6982075B2 (en) | 2001-10-11 | 2006-01-03 | Altana Pharma Ag | Use of pulmonary surfactant |
US7053176B1 (en) | 1999-09-16 | 2006-05-30 | Altana Pharma Ag | Combination of C1-INH and lung surfactant for the treatment of respiratory disorders |
US7173009B2 (en) | 1999-06-17 | 2007-02-06 | Altana Pharma Ag | Surfactant protein C esters |
US7951781B2 (en) | 2006-11-02 | 2011-05-31 | University Of Iowa Research Foundation | Methods and compositions related to PLUNC surfactant polypeptides |
US8236750B2 (en) | 2004-08-06 | 2012-08-07 | Nycomed Gmbh | Composition comprising a pulmonary surfactant and a TNF-derived peptide |
US9289388B2 (en) | 2008-12-10 | 2016-03-22 | Paka Pulmonary Pharmaceuticals, Inc. | Methods and compositions for delivery of medicaments to the lungs |
WO2021151853A1 (en) | 2020-01-28 | 2021-08-05 | Chiesi Farmaceutici S.P.A. | Polypeptides having improved properties |
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US6995141B1 (en) | 1990-04-04 | 2006-02-07 | Vertex Pharmaceuticals Incorporated | Interleukin 1β protease and interleukin 1β protease inhibitors |
EP0600880B1 (en) * | 1991-08-30 | 2004-01-07 | Vertex Pharmaceuticals Incorporated | Interleukin 1- beta protease and interleukin 1-beta protease inhibitors |
US6143405A (en) * | 1998-06-30 | 2000-11-07 | 3M Innovative Properties Company | Light colored, electrically conductive coated particles and composites made therefrom |
US6395149B1 (en) | 1998-06-30 | 2002-05-28 | 3M Innovative Properties Company | Method of making light colored, electrically conductive coated particles |
JP7173452B2 (en) * | 2017-03-07 | 2022-11-16 | キリンホールディングス株式会社 | Method for analyzing carboxyl-terminal amino acids |
Family Cites Families (2)
Publication number | Priority date | Publication date | Assignee | Title |
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US4853332A (en) * | 1982-10-19 | 1989-08-01 | Cetus Corporation | Structural genes, plasmids and transformed cells for producing cysteine depleted muteins of biologically active proteins |
ATE163013T1 (en) * | 1987-11-04 | 1998-02-15 | Byk Gulden Lomberg Chem Fab | ALVEOLAR SURFACE-ACTIVE PROTEINS |
-
1990
- 1990-05-17 US US07/524,360 patent/US5104853A/en not_active Expired - Fee Related
-
1991
- 1991-05-17 WO PCT/US1991/003490 patent/WO1991018015A1/en not_active Application Discontinuation
- 1991-05-17 CA CA002083177A patent/CA2083177C/en not_active Expired - Lifetime
- 1991-05-17 EP EP19910910678 patent/EP0538273A4/en not_active Withdrawn
- 1991-05-17 JP JP3510448A patent/JPH05509301A/en not_active Withdrawn
-
2002
- 2002-04-16 JP JP2002113971A patent/JP2002332298A/en not_active Withdrawn
-
2004
- 2004-11-05 JP JP2004323028A patent/JP2005053929A/en active Pending
Non-Patent Citations (5)
Title |
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Atlas of Protein Sequence and Structure, Volume 5, issued 1972, M.O. DAYHOFF et al., "A doel of Evolutionary change in Proteins", pages 89-99, see especially Fig. 9-12. * |
FEBS Letters, Volume 232, Number 1, issued May 1988, J. JOHANSSON et al., "Hydrophobic 3.7 nDa surfactant polypeptide: structural characterization of the human and bovine forms", pages 61-64, see especially Fig. 1. * |
Proceedings National Academy of Science, Volume 84, issued November 1987, R.G. WARR et al., "Low molecular weight human pulmonary surfactant (SP5): Isolation, characterization and CDNA and amino acid sequences", pages 7915-7919, see especially Fig. 5. * |
See also references of EP0538273A4 * |
The Journal of Biological Chemistry, Volume 263, Number 1, issued 05 January 1988, S.W. GLASSER et al., "cDNa, deduced Polypeptide structure and chromosomal assignment of human fulmonary surfactant protcolipid, SPL (gVal)", pages 9-12, see especially Fig. 2. * |
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US5683982A (en) * | 1991-11-04 | 1997-11-04 | Merrell Pharmaceuticals Inc. | Synthetic lung surfactant having antioxidant properties |
AU690280B2 (en) * | 1994-05-31 | 1998-04-23 | Takeda Gmbh | Synthetic peptide analogs of lung surfactant protein SP-C |
US5874406A (en) * | 1994-05-31 | 1999-02-23 | Byk Gulden Lomberg Chemische Fabrik Gmbh | Synthetic peptide analogs of lung surface protein SP-C |
WO1995032992A1 (en) * | 1994-05-31 | 1995-12-07 | Byk Gulden Lomberg Chemische Fabrik Gmbh | Synthetic peptide analogs of lung surfactant protein sp-c |
US6737243B1 (en) | 1998-07-24 | 2004-05-18 | Altana Pharma Ag | Determination of the hydrophobic pulmonary surfactant protein SP-C |
CZ301108B6 (en) * | 1999-02-12 | 2009-11-11 | Chiesi Farmaceutici S. P. A. | SP-C analogs |
WO2000047623A1 (en) * | 1999-02-12 | 2000-08-17 | Chiesi Farmaceutici S.P.A. | Artificial peptides having surface activity and the use thereof in the preparation of artificial surfactant |
AU758735B2 (en) * | 1999-02-12 | 2003-03-27 | Chiesi Farmaceutici S.P.A. | Artificial peptides having surface activity and the use thereof in the preparation of artificial surfactant |
JP4754073B2 (en) * | 1999-02-12 | 2011-08-24 | キエシ・フアルマチエウテイチ・ソチエタ・ペル・アチオニ | Artificial peptides with surface activity and their use in the production of artificial surfactants |
US7053044B1 (en) | 1999-02-12 | 2006-05-30 | Chiesi Farmaceutici S.P.A. | Artificial peptides having surface activity and the use thereof in the preparation of artificial surfactant |
US7173009B2 (en) | 1999-06-17 | 2007-02-06 | Altana Pharma Ag | Surfactant protein C esters |
US7053176B1 (en) | 1999-09-16 | 2006-05-30 | Altana Pharma Ag | Combination of C1-INH and lung surfactant for the treatment of respiratory disorders |
US6982075B2 (en) | 2001-10-11 | 2006-01-03 | Altana Pharma Ag | Use of pulmonary surfactant |
US8236750B2 (en) | 2004-08-06 | 2012-08-07 | Nycomed Gmbh | Composition comprising a pulmonary surfactant and a TNF-derived peptide |
US7951781B2 (en) | 2006-11-02 | 2011-05-31 | University Of Iowa Research Foundation | Methods and compositions related to PLUNC surfactant polypeptides |
US9289388B2 (en) | 2008-12-10 | 2016-03-22 | Paka Pulmonary Pharmaceuticals, Inc. | Methods and compositions for delivery of medicaments to the lungs |
WO2021151853A1 (en) | 2020-01-28 | 2021-08-05 | Chiesi Farmaceutici S.P.A. | Polypeptides having improved properties |
Also Published As
Publication number | Publication date |
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EP0538273A1 (en) | 1993-04-28 |
JP2005053929A (en) | 2005-03-03 |
CA2083177C (en) | 2002-02-26 |
JPH05509301A (en) | 1993-12-22 |
EP0538273A4 (en) | 1993-06-16 |
US5104853A (en) | 1992-04-14 |
CA2083177A1 (en) | 1991-11-18 |
JP2002332298A (en) | 2002-11-22 |
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