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Query: UMLS:C0023380 (
lethargy
)
5,697
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
We have produced transgenic pigs that harbour structural genes for bovine and human growth hormone (bGH and hGH) ligated to a mouse
metallothionein
-I (MT) promoter, human growth hormone-releasing factor (hGRF) ligated to the MT or mouse albumin (ALB) promoter, and human insulin-like growth factor-I (hIGF-I) ligated to MT promoter. From 0.31 to 1.03% of microinjected ova developed into transgenic pigs with the various fusion genes. Foreign GH was present in plasma of 61% of the MT-hGH and 89% of the MT-bGH transgenic pigs. Two of 7 pigs with MT-hGRF and all 3 ALB-hGRF transgenic pigs had high concentrations of GRF in their plasma, but plasma concentrations of porcine GH (pGH) were not higher in GRF transgenic pigs than in littermate control pigs. In contrast, plasma concentrations at birth ranged from 3 to 949 ng hGH/ml for MT-hGH transgenic pigs and 5 to 944 ng bGH/ml for MT-bGH transgenic pigs. Presence of the foreign GH depressed endogenous pGH to non-detectable levels. In MT-bGH transgenic pigs, plasma IGF-I was elevated more than 2-fold, plasma glucose was elevated about 30 mg/dl, and plasma insulin was 20-fold higher than in littermate or sibling control pigs. Two lines of pigs expressing the MT-bGH transgene gained 11.1% and 13.7% faster, and were 18% more efficient in converting feed to body weight gain than were sibling control pigs. Expression of the MT-bGH transgene caused a marked repartitioning of nutrients from subcutaneous fat into other carcass components, including muscle, skin, bone and certain organs. The persistent excess hGH or bGH in transgenic pigs was detrimental to general health; lameness,
lethargy
and gastric ulcers were the most prevalent problems. Gilts that expressed the hGH or bGH transgenes were anoestrous. Germ-line transmission was obtained in 4 of 5 expressing transgenic boars and 4 of 5 nonexpressing transgenic boars and gilts. From 2% to 73% of progeny inherited a transgene from founder transgenics. All transgenic progeny of MT-hGH, MT-bGH and MT-hGRF founder males expressed the transgene if their sire also expressed the gene. The concentration of bGH or hGH in plasma of transgenic progeny was similar to the concentration present in the founder transgenic.
...
PMID:Integration, expression and germ-line transmission of growth-related genes in pigs. 221 18
Zinc is essential for many metabolic and enzymatic functions in man. Deficiency of zinc in man has now been recognized to occur not only as a result of nutritional factors, but also in various disease states, including malabsorption syndromes, acrodermatitis enteropathica, Crohn's disease, alcoholism and cirrhosis of the liver. The deficiency state in human subjects exists as a spectrum extending from mild to severe degree. The clinical manifestations of mild zinc deficiency include oligospermia, weight loss and hyperammonaemia. Moderate zinc deficiency is characterized clinically by growth retardation, hypogonadism in males, skin changes, poor appetite, mental
lethargy
, delayed wound healing, taste abnormalities and abnormal dark adaptation. In severe zinc deficiency states, bullous-pustular dermatitis, alopecia, diarrhoea, emotional disorders, weight loss, intercurrent infections, hypogonadism in males and, if unrecognized, death have been observed. Zinc is needed for the functions of over 100 enzymes. It is essential for DNA, RNA and protein synthesis and, as such, is important for cell division. Zinc is an inducer of mRNA of
metallothionein
, a protein which may have an important role in the regulation of intestinal zinc absorption. Zinc has a specific effect on testes in animals and man. Recent reports indicate that in human subjects thymopoietin may be zinc dependent and in animal studies somatomedin may be affected adversely due to dietary zinc restriction. Zinc plays an important role in the protection of cell membrane integrity and may be protective against free radical injury. Zinc is known to compete with cadmium, lead, copper, iron and calcium for similar binding sites. In the future, a potential use of zinc may be to alleviate toxic effects of cadmium and lead in human subjects. Recent evidence suggests that thymic-dependent lymphocytes (T cells are zinc dependent. T-helper and suppressor cells, T-effector cells and T-natural killer cells appear to be zinc dependent. Zinc is also essential for some of the neutrophil functions. Thus, it appears that zinc may play an important role in immunity. One may suggest that some of the clinical features of cirrhosis of the liver, such as testicular atrophy, loss of body hair, night blindness, poor wound healing, poor appetite, susceptibility to infections and enhanced sensitivity to drugs, may be related to conditioned deficiency of zinc, future studies are required to determine whether or not zinc supplementation is beneficial to these patients.
...
PMID:The role of zinc in gastrointestinal and liver disease. 661 39
To study effects of dietary Cu and Fe levels on the onset of hepatitis in Long-Evans Cinnamon (LEC) rats, female rats (40 days old) were fed a semipurified diet containing 0.1 or 10 mg Cu/kg and 1.5 or 150 mg Fe/kg in a 2 x 2 factorial arrangement for 35 days. At 75 days after birth, LEC rats (+Cu-Fe) fed a Cu-sufficient but Fe-deficient diet (Cu, 10 mg/kg; Fe, 1.5 mg/kg) showed jaundice, with
lethargy
, anorexia, and malaise. The biochemical variables relating to liver function were significantly increased compared to three other groups, a Cu- and Fe-deficient (-Cu-Fe) group, a Cu-deficient but Fe-sufficient (-Cu+Fe) group, and a Cu and Fe sufficient (+Cu+Fe) group. Furthermore, the +Cu-Fe rat liver showed massive necrosis with huge nuclei. The other three groups presented no biochemical and histological findings of hepatitis. Hepatic Cu and
metallothionein
concentrations were 289 +/- 87 (mean +/- SD) microg/g liver and 8.7 +/- 1.8 mg/g liver, respectively, in the +Cu-Fe rats. However, in the +Cu+Fe group the values were 196 +/- 28 microg Cu/g liver and 10.8 +/- 1.0 mg/g liver. Hepatic Fe deposition was not influenced significantly by the dietary Cu level. The +Cu-Fe group with jaundice showed the highest free Cu concentration in the liver among the four groups, but the hepatic free Fe concentration was similar to those in the -Cu+Fe and +Cu+Fe groups. Our results indicate that an Fe-deficient diet enhances the deposition of hepatic Cu due to increased absorption of Cu from the gastrointestinal tract. This deposition stimulated the onset of hepatitis.
...
PMID:An iron-deficient diet stimulates the onset of the hepatitis due to hepatic copper deposition in the Long-Evans Cinnamon (LEC) rat. 1055 Apr 76
