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Relation of fruitfulness in reduction therapy of child obesity at samplet genetics polymophisms
Janoudová, Veronika ; Sedlak, Petr (advisor) ; Daňková, Pavlína (referee)
The aim of the thesis is to analyze the relationship of polymorphisms Ala54Thr FABP2 (protein binding long chain fatty acids in the enterocytes of the small intestine), Gln27Glu B2AR (lipolytic receptor in white adipose tissue) and A-3826G UCP1 (uncoupling protein in the inner membrane of mitochondria in brown adipose tissue) to pursued antropometric and biochemical markers and judge their impact on the success of reducing therapy on children. Association of observed polymorphisms with obesity has already been proven in other studies, the results are inconsistent and most studies have dealt with adults. The study includes of 335 individuals (216 girls and 119 boys) who completed a reduction stay in the Children's hospital of Dr. Filip in Poděbrady. The subjects were studied for anthropometric and biochemical markers at the beginning and at the end of reduction stay. Genetic analysis of polymorphisms were performed with use of PCR-RFLP. Girls Thr/Thr in polymorphism Ala54Thr FABP2 were showing greater thickness of skin fold on abdomen (p=0,009) and higher fat percentage in body composition (p=0,023). Significantly greater reductionof both these markers have been demonstrated (p=0.008, p=0.040). For boys the relationship was observed of homozygote Ala/Ala in a lower weight reduction (p=0,040). In...
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Distribution of mitochondrial uncoupling proteins in selected tissues from mice and rat
Alán, Lukáš ; Ježek, Petr (advisor) ; Flachs, Pavel (referee)
Mitochondrial uncoupling proteins (UCPs) belong to the superfamily of mitochondrial anion-carriers. The longest known is UCP1, predominantly expressed in brown adipose tissue, where it takes part in nonshivering thermogenesis. In the late 1990s were discovered other sequence homologs of UCP1 with tissue specific distribution. The Function of these "new" uncoupling proteins is still uncertain. It is assumed that each of the isoforms has a specific function depending on the type of tissue. This thesis showed differences in tissue transcription pattern between rat and mice using RT-PCR absolute quantification. Significant differences in pattern were found in lungs, brain and muscle. In each case UCP expression was higher in mice tissues. Mice lungs express mainly UCP2. The difference in mice brain is caused by ucp4 and ucp5 genes transcription and finally in muscle is highest content of UCP3 mRNA. We investigated whether any of ucp transcript can complement ucp2 transcripton in spleen or lungs of ucp2 -/- mice. We did not find any difference which can explain, that in isolated lung mitochondria of fasted ucp2-/- mice were uncoupled in state 4. In the last project, we found relationship between ucp2 transcription in insulinoma INS-1E cells and oxygen levels of the cultivation atmosphere.
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Non-shivering thermogenesis - UCP1 and other alternative mechanisms
Kružíková, Nikola ; Zouhar, Petr (advisor) ; Tauchmannová, Kateřina (referee)
Adaptive thermogenesis is a natural mechanism by which endothermic organisms increase their basal metabolic rate to maintain stable body temperature. During acute exposure to subthermoneutral temperatures, the first reaction of organism is shivering which is gradually replaced by nonshivering thermogenesis. Nonshivering thermogenesis in mammals is associated with a UCP1 protein located in the inner mitochondrial membrane in adipose cells. In active mode, UCP1 uncouples respiratory chain from ATP synthesis and by that significantly increases metabolic rate. Apart from UCP1, some alternative mechanisms of nonshivering thermogenesis were suggested - namely: sarcolipin uncoupling ATP hydrolysis from pumping calcium ions through SERCA pump in skeletal muscle, phosphocreatine hydrolysis in adipose tissue or futile cycling of triacylglycerols and fatty acids reesterification. However, to date, there is rather indirect and not generally accepted evidence that these mechanisms contribute significantly to adaptive nonshivering thermogenesis. Better understanding of the nonshivering thermogenesis processes would be of great clinical importance as it could allow identification of potential targets for pharmacological manipulation of energy expenditure and thus provide novel methods for reducing obesity and...
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Relation of fruitfulness in reduction therapy of child obesity at samplet genetics polymophisms
Janoudová, Veronika ; Sedlak, Petr (advisor) ; Daňková, Pavlína (referee)
The aim of the thesis is to analyze the relationship of polymorphisms Ala54Thr FABP2 (protein binding long chain fatty acids in the enterocytes of the small intestine), Gln27Glu B2AR (lipolytic receptor in white adipose tissue) and A-3826G UCP1 (uncoupling protein in the inner membrane of mitochondria in brown adipose tissue) to pursued antropometric and biochemical markers and judge their impact on the success of reducing therapy on children. Association of observed polymorphisms with obesity has already been proven in other studies, the results are inconsistent and most studies have dealt with adults. The study includes of 335 individuals (216 girls and 119 boys) who completed a reduction stay in the Children's hospital of Dr. Filip in Poděbrady. The subjects were studied for anthropometric and biochemical markers at the beginning and at the end of reduction stay. Genetic analysis of polymorphisms were performed with use of PCR-RFLP. Girls Thr/Thr in polymorphism Ala54Thr FABP2 were showing greater thickness of skin fold on abdomen (p=0,009) and higher fat percentage in body composition (p=0,023). Significantly greater reductionof both these markers have been demonstrated (p=0.008, p=0.040). For boys the relationship was observed of homozygote Ala/Ala in a lower weight reduction (p=0,040). In...
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Distribution of mitochondrial uncoupling proteins in selected tissues from mice and rat
Alán, Lukáš ; Flachs, Pavel (referee) ; Ježek, Petr (advisor)
Mitochondrial uncoupling proteins (UCPs) belong to the superfamily of mitochondrial anion-carriers. The longest known is UCP1, predominantly expressed in brown adipose tissue, where it takes part in nonshivering thermogenesis. In the late 1990s were discovered other sequence homologs of UCP1 with tissue specific distribution. The Function of these "new" uncoupling proteins is still uncertain. It is assumed that each of the isoforms has a specific function depending on the type of tissue. This thesis showed differences in tissue transcription pattern between rat and mice using RT-PCR absolute quantification. Significant differences in pattern were found in lungs, brain and muscle. In each case UCP expression was higher in mice tissues. Mice lungs express mainly UCP2. The difference in mice brain is caused by ucp4 and ucp5 genes transcription and finally in muscle is highest content of UCP3 mRNA. We investigated whether any of ucp transcript can complement ucp2 transcripton in spleen or lungs of ucp2 -/- mice. We did not find any difference which can explain, that in isolated lung mitochondria of fasted ucp2-/- mice were uncoupled in state 4. In the last project, we found relationship between ucp2 transcription in insulinoma INS-1E cells and oxygen levels of the cultivation atmosphere.
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