Therapeutic use of 20-kilodalton human growth hormone

Details Therapeutic use of 20-kilodalton human growth hormone Therapeutic use of 20-kilodalton human growth hormone

1997-12-15

2002-06-04

Kemmerer, Elizabeth C. (Department: 1647)

Drug, bio-affecting and body treating compositions

Designated organic active ingredient containing

Peptide containing doai

C514S008100, C514S012200, C530S399000

Reexamination Certificate

active

06399565

ABSTRACT:

BACKGROUND OF THE INVENTION
1. Field of the Invention
The present invention relates to a human growth hormone agent for adults, more specifically to a human growth hormone agent for replacement therapy for growth hormone-deficient adult patients.
2. Description of the Related Art
A human growth hormone is a hormone which is continuously secreted from the pituitary gland not only during a growth period but also all through life in a normal human. The human growth hormone was first extracted and purified from the human pituitary gland. The human growth hormone has known to exist in two types: one having a molecular weight of about 22,000 (hereinafter referred to as 22-kilodalton human growth hormone) and the other having a molecular weight of about 20,000 (hereinafter referred to as 20-kilodalton human growth hormone). It has been reported that the 20-kilodalton human growth hormone has a growth promoting activity equivalent to that of the 22-kilodalton human growth hormone but has a weaker activity in inducing glucose intolerance than the 22-kilodalton human growth hormone so that it may be less diabetogenic (Lewis U. J., et al: Endocrinol. Japan 34 73-85, 1987). Accordingly, effectiveness of the 20-kilodalton human growth hormone as a therapeutic agent for growth hormone deficiency has attracted attention (Hisao Seo, et al: Igaku no Ayumi 165 247-251, 1993).
However, in spite of the development in recombinant DNA technology, production of the 20-kilodalton human growth hormone was extremely difficult and the amount of expression of the 20-kilodalton human growth hormone having an additional Met at the N-terminal in an intracellular expression method was {fraction (1/20)} that of the 22-kilodalton human growth hormone (Miyamoto, et al: International Symposium on GRF; Growth Hormone and Somatomedin Program and Abstracts 28 1-2, 1986). In manufacturing proteins, it is known that generally, higher-order structures in the cells are not properly formed in the intracellular expression method, so that a refolding process is required. However, since unlike the 22-kilodalton human growth hormone, there is no international standard product for this 20-kilodalton human growth hormone, it is difficult to evaluate the appropriateness of the structure attained by the refolding process by comparison with a standard product. Furthermore, this 20-kilodalton human growth hormone is highly hydrophobic, which makes purification process difficult and substantially defies a secretion method for the production of an authentic 20-kilodalton human growth hormone having the amino acid sequence identical to that of the 20-kilodalton human growth hormone derived from the pituitary gland.
Thus, such a poor availability of the authentic 20-kilodalton human growth hormone has been an obstacle to study its potentiality as a medicament (Fukashi Matsuzaki: Igaku no Ayumi 165 243-246, 1993).
Biological properties of the human growth hormone, which are the foundation of its potentiality as a medicament, will be described as follows:
A growth hormone is associated with various events in the body, such as lipolysis, protein anabolism and osteogenesis. Therefore, in growth hormone-deficient patients, a lipolytic activity, an insulin-like growth factor I (hereinafter referred to as IGF-I) secreting activity, a protein synthesis stimulating activity, a bone metabolizing activity or the like are being decreased. Among them, the decrease in lipolytic activity is one of the factors to cause accumulation of subcutaneous fat or visceral fat, which results in marked obesity. Thus, in growth hormone-deficient patients, a complication with hyperlipemia is known to occur in many cases and the morbidity in circulatory disorders such as arteriosclerosis and the mortality from cardiovascular diseases are reported to be high. It has also been reported that since IGF-I is associated with various physiological events in the body, the decrease in the serum IGF-I concentration due to the reduced IGF-I secreting activity causes various disorders. Furthermore, it has also been reported that the decrease in the protein synthesis stimulating activity causes a decrease in muscular strength and exercise capacity, which may cause problems in daily activities.
From the fact described above, in growth hormone-deficient patients, it is required to improve body composition, namely to bring body protein content, body fat content and bone density close to normal levels. More specifically, it is required to increase a decreased body protein content and bone density and to decrease an increased body fat content. To decrease the body fat content here implies suppression of body fat accumulation, stimulation of body fat hydrolysis and the like so that the stimulation of body fat hydrolysis is not the only cause of the decrease in the body fat content. Therefore, the stimulation of body fat hydrolysis is one of the factors to improve the body composition.
Some activities related to the 22-kilodalton human growth hormone in growth hormone-deficient patients are conventionally known as follows:
As a replacement therapy for growth hormone-deficient patients, administrations of the 22-kilodalton human growth hormone produced by a recombinant DNA technique to the patients have been tried; with regard to the above-mentioned improvement of the body composition, it was reported that an administration of the 22-kilodalton human growth hormone over a period of 3 years reduced the body fat content to normal level (Jorgensen, J. OL., et al: European Journal of Endocrinology 130 224-228, 1994) and an administration of the 22-kilodalton human growth hormone over a period of 6 weeks increased the serum IGF-I concentration to a normal level, and improved the body nitrogen level, which implies the body protein level, bringing it close to normal (Bengtsson, B. A., et al: J. Clin. Endocrinol. Metab. 76 309-317, 1993). However, with regard to adults other than growth hormone-deficient patients, no knowledge is available since no administrative experiment has been conducted.
On the other hand, there is concern that the administration of human growth hormones to adults tends to induce glucose intolerance. In fact, it was indicated that the administration to growth hormone-deficient adult patients induced not frequent but serious abnormalities in glucose metabolism (Beshyah, S. A., et al: Endocrinology and Metabolism (suppl. B), 32, 1994).
It has been difficult to obtain the authentic 20-kilodalton human growth hormone. As a result, in most experimental studies regarding physiological properties of the 20-kilodalton human growth hormone to date, either a purified product prepared from the pituitary gland or a non-authentic recombinant product having a methionine at the N-terminal (hereinafter referred to as Met-type 20-kilodalton human growth hormone) which is prepared by a recombinant gene technique, had been used. Physiological properties obtained from the experiments using these products are described as follows:
A growth promoting activity of the 20-kilodalton human growth hormone, which was extracted and purified from the pituitary gland, was reported to be the same as that of the 22-kilodalton human growth hormone (Lewis, U. J., et al: J. Biol. Chem. 253 2679-2687, 1978). As to affinity to adipocytes and lipolysis stimulating activity, the following is known. The affinity of the 20-kilodalton human growth hormone, which is extracted and purified from the pituitary gland, to adipocytes is as markedly low as 3% of that of the 22-kilodalton human growth hormone (De Meyts, P., et al: J. Biol. Chem. 262 11071-11079, 1987). On the other hand, as to the lipolysis stimulating activity, which is important in the administration to growth hormone-deficient adult patients, a serum free fatty acid concentration was increased by 40% due to the lipolysis stimulation in vivo with the 22-kilodalton human growth hormone, while no increase was observed with the 20-kilodalton human growth hormone which was extracted and purified from the pituitary gland (Lewis, U. J., et al: Biochem. Bio

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