Method and substances for diagnosis and therapy of sepsis...

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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C435S069400, C435S071100, C435S071200, C435S471000, C435S325000, C435S320100, C435S252300, C435S254110

Reexamination Certificate

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06756483

ABSTRACT:

The present invention relates to novel diagnostic and therapeutic possibilities which could be derived from novel, experimentally confirmed discoveries in connection with the occurrence of procalcitonin or procalcitonin partial peptides in sepsis and severe sepsis-like systemic infections.
The patents DE 42 27 454 and EP 0 656 121 B1 and U.S. Pat. No. 5,639,617 disclose that the determination of the prohormone procalcitonin and of partial peptides derived therefrom in a serum or plasma of a patient in whom there is a risk of sepsis and in whom symptoms typical of sepsis are found is a valuable diagnostic aid for early detection, i.e. for the detection of infections which may lead to sepsis, and their differentiation from noninfectious etiologies, for the detection of the severity and for the assessment of the success of a treatment of sepsis and sepsis-like systemic infections. Said determination has proved particularly valuable for diagnosis to distinguish symptoms attributable to systemic microbial infections from other symptoms of noninfectious etiology which, owing to their clinical picture, might suggest a sepsis but in reality are not attributable to a systemic microbial infection, for example from symptoms attributable to noninfectious inflammations of individual organs, to postoperative rejection reactions or cancers. Furthermore, systemic inflammations can be distinguished from local ones.
For an overview of the more recent discoveries, reference is made to W. Karzai et al. in Infection, Vol. 25 (1997), 6, pages 329-334 and the further technical literature cited or mentioned therein.
Procalcitonin became known as a prohormone of calcitonin, and its complete amino acid sequence has long been known (FEBS 167 (1984), page 93-97). Procalcitonin is produced under normal conditions in the C cells of the thyroid gland and then specifically cleaved into the hormone calcitonin and the further partial peptides katacalcin and an N-terminal residue comprising 57 amino acids (“aminoprocalcitonin”).
Since in the case of sepsis greatly elevated procalcitonin levels are observed even in patients from whom the thyroid gland was completely removed, it was necessary to conclude that the procalcitonin detectable in the blood of sepsis patients is formed outside the thyroid gland, different opinions having been expressed in the technical literature, some of them supported by experimental material, with regard to the organs or cells or the tissues which are critical for procalcitonin production during sepsis.
Regarding the nature of the peptide determined as “procalcitonin” in sepsis, it was in fact made clear from the outset in the above-mentioned patients that the specific peptide need not be completely identical to the known procalcitonin peptide of full length, which is formed in the thyroid glands as a calcitonin precursor. However, the question as to whether the procalcitonin formed in the case of sepsis differs from the procalcitonin formed in the thyroid glands remain unanswered to date. Possible differences were posttranslational modifications of the known procalcitonin, such as glycosylations, phosphorylations or modifications of the primary structure, but also modified, shortened or lengthened amino acid sequences. Since the analytical assay methods used to date did not reveal any differences between the procalcitonin known as the calcitonin precursor and the procalcitonin formed in the case of sepsis, it was provisionally generally assumed that the procalcitonin formed in the case of sepsis is identical to the calcitonin precursor and is thus a peptide having the known procalcitonin sequence of 116 amino acids (procalcitonin 1-116). (SEQ. ID. NO: 1)
As revealed by the determinations in the Applicant's laboratory, explained in more detail in the experimental section of this Application, however, the procalcitonin formed in the case of sepsis differs slightly but significantly from the complete procalcitonin 1-116 formed in the thyroid gland. The differences found then led to a number of scientific conclusions which could be implemented in novel diagnostic and therapeutic methods, substances usable therein and scientific approaches which could be pursued.
The starting point for the invention disclosed in the present Patent Application is the surprising discovery that the procalcitonin detectable in comparatively high concentrations in the serum of patients in the case of sepsis and sepsis-like systemic infection is not the complete procalcitonin 1-116 comprising 116 amino acids but procalcitonin shortened at the amino terminus by a dipeptide but otherwise identical and having an amino acid sequence of only 114 (SEQ. ID. NO: 3) amino acids (procalcitonin 3-116).
The dipeptide missing in comparison with the complete procalcitonin has the structure Ala-Pro. The lack of a dipeptide comprising a proline residue as a second amino acid (SEQ. ID. NO: 2) of the amino terminus of the complete procalcitonin sequence led to the presumption that a specific peptidase might play a role in the production of the procalcitonin 3-116 detectable in the case of sepsis, that is to say the so-called dipeptidyl-(amino)-peptidase IV (DP IV or DAP IV or CD26).
For the determination of a possible role of the dipeptidyl-aminopeptidase IV in association with systemic infection or with sepsis, the inventors have therefore tested experimentally whether a correlation of the physiological DAP IV concentrations with the detection of a sepsis is possible. The results obtained showed such a correlation.
The more exact results obtained furthermore led to the development of a hypothesis that the occurrence of high procalcitonin concentrations in the case of sepsis and systemic infections may not be an isolated phenomenon but that in a similar manner elevated concentrations of other prohormones might also be measurable, so that the determination of such prohormones is a possible alternative to the procalcitonin determination or is suitable for supplementing the procalcitonin determination in individual cases or further confirming it in a diagnostically significant manner.
The discovery that it is not the complete procalcitonin 1-116 which is found in the serum of patients in the case of sepsis but a shortened procalcitonin 3-116 is finally also of potential interest for sepsis therapy. An article by Eric S. Nylen et al., Crit Care Med 1998, Vol. 26, No. 6, pages 1001-1006 describes experimental findings which indicate that the procalcitonin occurring in the case of sepsis is not only a diagnostically important marker which is formed, for example, as a metabolic waste product but appears to play an active role as a mediator in an inflammation process caused by infection, by virtue of the fact that procalcitonin can maintain and intensify inflammatory reaction. This role of procalcitonin is at present the subject of controversy, and the test results disclosed do not give a concurring picture.
The above-mentioned discovery that a procalcitonin shortened at the amino terminus by two amino acids occurs in the case of sepsis suggests that the procalcitonin which plays an active role in the case of sepsis and other inflammatory systemic infections is likely to be this shortened procalcitonin 3-116, and that studies carried out with the procalcitonin peptide of full length gave different or contradictory results, inter alia for this reason. It is well known that many physiologically active peptides are converted into their actual active form by cleavage, for example an initial elimination of a short peptide residue. A known example is angiotensin in which peptides having considerably different physiological activities are formed from the inactive angiotensinogen having 14 amino acids by successive elimination first of a tetrapeptide and then of a dipeptide and finally of an individual amino acid. The fact that relatively slight modifications of the N-terminus of the physiologically active peptide play a role in the immunological process and can lead to considerable changes in activity in the corresponding peptides has b

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