Hasil Pencarian  ::  Simpan CSV :: Kembali

"ABSTRAKGinjal merupakan organ yang dalam keadaan normoksia sekalipun rentan terhadap keadaan hipoksia. Salah satu mekanisme adaptasi terhadap keadaan hipoksia sistemik kronik adalah dengan mengekspresikan Cygb. Cygb berperan untuk mensuplai O2 ke mitokondria. Penyedian O2 dilakukan untuk reaksi hidroksilasi prolin pada sintesis kolagen dan asparagin pada HIF-1. Penelitian ini bertujuan untuk menganalisis ekspresi relatif mRNA dan protein Cygb pada jaringan ginjal tikus yang diinduksi hipoksia sistemik kronik. Penelitian eksperimental ini menggunakan 25 tikus Sprague-Dawley yang dibagi menjadi 5 kelompok, yakni: kontrol (normoksia: 20% oksigen/80% nitrogen), 1, 3, 7 dan 14 hari hipoksia (10% oksigen/90% nitrogen). Organ ginjal diambil setelah tikus dibedah. Parameter yang diukur adalah ekspresi relatif mRNA dan protein Cygb. Pengukuran mRNA dilakukan dengan menggunakan iScript One-Step SYBR Green (BioRad, NY). Protein Cygb diukur dengan menggukan Enzyme-Linked Immunosorbet Assay Kit (USCN). Ekspresi relatif mRNA dan protein Cygb mengalami titik puncak pada hipoksia 3 hari. Keduanya memiliki korelasi sangat kuat (r2 = 0.96, p<0.05). Ekspresi mRNA dan Protein Cygb meningkat pada jaringan tikus yang diinduksi hipoksia sistemik kronik.

---

ABSTRACT

Kidney is the organ in a state of normoxia though susceptible to hypoxia. One of the mechanisms of adaptation to chronic systemic hypoxia is to express Cygb. The function of Cygb is to supply O2 to the mitochondria. Supply O2 is needed for the reaction of proline hydroxylation in collagen synthesis and asparagine in HIF-1α. The aim of this study is to analyze the relative expression of Cygb mRNA and protein in chronic ischemia of kidney tissue in the rat. This experimental study used 25 Sprague-Dawley rats divided into 5 group: control (normoxia: 20% oxygen/80% nitrogen), 1, 3, 7 and 14 day hypoxia (10% oxygen/90% nitrogen). Kidney organ were collected after the rats were sacrificed. Parameters measured were: the relative expression of Cygb mRNA and protein. Measurement of Cygb mRNA was done using iScript One-Step SYBR Green (BioRad, NY). Cygb protein was measured using Enzyme-Linked Immunosorbet Assay Kit for (USCN). The peak of relative expression of Cygb mRNA and protein occurred at day 3 of hypoxia. Both parameters were strongly correlated (r2 = 0.96, p <0.05). The relative expression of Cygb mRNA and protein were increased in rat kidney tissue which has been subjected to chronic systemic hypoxia."

"[ABSTRAKHipoksia berperan penting pada patofisiologi berbagai penyakit utama penyebab kematian seperti, penyakit jantung iskemia, strok, kanker, penyakit paru kronik, dan gagal jantung kongestif. Kedua protein golongan globin di otak, yaitu neuroglobin (Ngb) dan sitoglobin (Cygb) diduga berperan dalam suplai oksigen ke mitokondria dan melindungi jaringan otak dari kerusakan akibat hipoksia (neuroprotektan). Perubahan ekspresi protein merupakan salah satu bentuk adaptasi biokimia yang penting terhadap perubahan homeostasis. Oleh karena itu timbul pertanyaan bagaimana pola ekspresi Ngb dan Cygb serta peran neuroprotektan kedua protein tersebut di otak pada keadaan hipoksia sistemik kronik (HSK). Penelitian bertujuan manganalisis perbedaan pola ekspresi Ngb dan Cygb serta kaitannya dengan apoptosis pada HSK. Parameter yang diukur adalah Ngb, Cygb, sitokrom c, MDA, GSH dan HIF-lα. Rancangan penelitian yang digunakan adalah studi eksperimental in vivo model HSK pada tikus. Tikus sebagai hewan coba dibagi secara acak dalam 6 kelompok perlakuan, yaitu kelompok I adalah kelompok kontrol atau tanpa perlakuan hipoksia, sedangkan kelompok II, III, IV, V, dan VI mendapat perlakuan hipoksia dengan lama waktu hipoksia selama 1, 3, 5, 7, dan 14 hari. Parameter yang diperiksa meliputi ekspresi Ngb dan Cygb dengan teknik real time-RT PCR, ELISA dan imunofluoresen FITC, stres oksidatif, HIF-1α sebagai penanda hipoksia, dan sitokrom c sebagai penanda apoptosis. Hasil yang diperoleh HSK meningkatkan ekspresi mRNA Ngb pada hipoksia 3, 5, dan 7 hari, namun ekspresi proteinnya menurun pada hipoksia 1, 3, 5, 7, dan 14 hari dibanding dengan kontrol. Berbeda dengan ekspresi mRNA Cygb yang menurun selama hipoksia 1, 3, 5, 7, dan 14 hari, namun protein Cygb meningkat pada hipoksia 1, 3, 5, 7, dan 14 hari dibandingkan dengan kontrol. Korelasi Ngb dengan sitokrom c lemah tidak signifikan, sedangkan Cygb sangat lemah dan tidak signifikan. HSK menginduksi ekspresi HIF-lα yang meningkat tertinggi pada hipoksia 7 hari, dan menyebabkan stres oksidatif yang ditandai dengan meningkatnya MDA pada hipoksia 1, 3 dan 5 hari, serta menurunnya GSH pada hipoksia 1, 3, dan 5 hari. Penelitian ini membuktikan bahwa terdapat perbedaan pola ekspresi Ngb dan Cygb pada HSK. Ekspresi Ngb sebagai respons adaptasi terjadi lebih awal dan lebih dipengaruhi oleh lama waktu hipoksia dibandingkan dengan ekspresi Cygb. Meskipun lemah, Ngb cenderung mempunyai peran menghambat apoptosis dibandingkan dengan protein Cygb.;

---

ABSTRACTHypoxia has an important role in the pathophysiology of high mortality diseases, such as ischemic cardiovascular disease, stroke, cancer, chronic lung disease, and congestive heart failure. The proteins belonged to globin protein group, included neuroglobin (Ngb) and cytoglobin (Cygb), have been presumed to play a role in regulating the oxygen supply into the mitochondria and protecting the brain tissues from damage due to hypoxia (neuroprotectant). An alteration in protein expression due to a homeostatic shift is an important adaptation process in biochemistry. Therefore, the expression pattern of Ngb and Cygb as well as their protein roles in brain during a chronic systemic hypoxia condition (CSH) remain unclear. This study aim to analyse the differences of the Ngb and Cygb expression patterns, and correlation of both protein to apoptosis in chronic systemic hypoxic condition. Ngb, Cygb, Cytochrome c, MDA, GSH, and HIF-1 α. were examined. An in vivo experimental model of CSH was carried out using rat. The experimental rats were randomly divided into 6 treatment groups, i.e. group I was a control group or without hypoxic condition, groups II, III, IV, V, and VI were treated by hypoxic condition for 1, 3, 5, 7, and 14 days, respectively. The Ngb and Cygb expressions were analysed using real time-RTPCR, ELISA, immunofluorescence with FITC, and the measurement of stress oxidative biomarkers, included HIF-1α as a biomarker of hypoxic condition and cytochrome c as a biomarker of apoptosis. The CSH was increased the mRNA expression of Ngb at 3, 5, and 7 days hypoxic groups, while the protein expression was decreased at 1, 3, 5, 7, and 14 days hypoxic groups compared to control group. The mRNA expression of Cygb was decreased at 1, 3, 5, 7, and 14 days hypoxic groups, whereas the Cygb protein expression was increased at 1, 3, 5, 7, and 14 days hypoxic groups compared to control group. The correlation between Ngb with cytochrome c was weakly statistically insignificant, and Cygb with cytochrome c was statistically insignificant. The CSH induced the HIFlα, which was shown by a high increase at 7 days hypoxic group, as well as stress oxidative which was represented by MDA at 1, 3, and 5 days hypoxic groups, and decreased GSH at 1, 3, and 5 days hypoxic groups. There are differences in expression pattern of Ngb and Cygb in CSH. The expression of Ngb, as an adaptive response, occurs earlier and is more influenced by the duration of hypoxic condition compared to Cygb. Although the correlation is weak, the Ngb seems more likely to inhibit apoptosis compared to Cygb protein;Hypoxia has an important role in the pathophysiology of high mortality diseases, such as ischemic cardiovascular disease, stroke, cancer, chronic lung disease, and congestive heart failure. The proteins belonged to globin protein group, included neuroglobin (Ngb) and cytoglobin (Cygb), have been presumed to play a role in regulating the oxygen supply into the mitochondria and protecting the brain tissues from damage due to hypoxia (neuroprotectant). An alteration in protein expression due to a homeostatic shift is an important adaptation process in biochemistry. Therefore, the expression pattern of Ngb and Cygb as well as their protein roles in brain during a chronic systemic hypoxia condition (CSH) remain unclear. This study aim to analyse the differences of the Ngb and Cygb expression patterns, and correlation of both protein to apoptosis in chronic systemic hypoxic condition. Ngb, Cygb, Cytochrome c, MDA, GSH, and HIF-1 α. were examined. An in vivo experimental model of CSH was carried out using rat. The experimental rats were randomly divided into 6 treatment groups, i.e. group I was a control group or without hypoxic condition, groups II, III, IV, V, and VI were treated by hypoxic condition for 1, 3, 5, 7, and 14 days, respectively. The Ngb and Cygb expressions were analysed using real time-RTPCR, ELISA, immunofluorescence with FITC, and the measurement of stress oxidative biomarkers, included HIF-1α as a biomarker of hypoxic condition and cytochrome c as a biomarker of apoptosis. The CSH was increased the mRNA expression of Ngb at 3, 5, and 7 days hypoxic groups, while the protein expression was decreased at 1, 3, 5, 7, and 14 days hypoxic groups compared to control group. The mRNA expression of Cygb was decreased at 1, 3, 5, 7, and 14 days hypoxic groups, whereas the Cygb protein expression was increased at 1, 3, 5, 7, and 14 days hypoxic groups compared to control group. The correlation between Ngb with cytochrome c was weakly statistically insignificant, and Cygb with cytochrome c was statistically insignificant. The CSH induced the HIFlα, which was shown by a high increase at 7 days hypoxic group, as well as stress oxidative which was represented by MDA at 1, 3, and 5 days hypoxic groups, and decreased GSH at 1, 3, and 5 days hypoxic groups. There are differences in expression pattern of Ngb and Cygb in CSH. The expression of Ngb, as an adaptive response, occurs earlier and is more influenced by the duration of hypoxic condition compared to Cygb. Although the correlation is weak, the Ngb seems more likely to inhibit apoptosis compared to Cygb protein;Hypoxia has an important role in the pathophysiology of high mortality diseases, such as ischemic cardiovascular disease, stroke, cancer, chronic lung disease, and congestive heart failure. The proteins belonged to globin protein group, included neuroglobin (Ngb) and cytoglobin (Cygb), have been presumed to play a role in regulating the oxygen supply into the mitochondria and protecting the brain tissues from damage due to hypoxia (neuroprotectant). An alteration in protein expression due to a homeostatic shift is an important adaptation process in biochemistry. Therefore, the expression pattern of Ngb and Cygb as well as their protein roles in brain during a chronic systemic hypoxia condition (CSH) remain unclear. This study aim to analyse the differences of the Ngb and Cygb expression patterns, and correlation of both protein to apoptosis in chronic systemic hypoxic condition. Ngb, Cygb, Cytochrome c, MDA, GSH, and HIF-1 α. were examined. An in vivo experimental model of CSH was carried out using rat. The experimental rats were randomly divided into 6 treatment groups, i.e. group I was a control group or without hypoxic condition, groups II, III, IV, V, and VI were treated by hypoxic condition for 1, 3, 5, 7, and 14 days, respectively. The Ngb and Cygb expressions were analysed using real time-RTPCR, ELISA, immunofluorescence with FITC, and the measurement of stress oxidative biomarkers, included HIF-1α as a biomarker of hypoxic condition and cytochrome c as a biomarker of apoptosis. The CSH was increased the mRNA expression of Ngb at 3, 5, and 7 days hypoxic groups, while the protein expression was decreased at 1, 3, 5, 7, and 14 days hypoxic groups compared to control group. The mRNA expression of Cygb was decreased at 1, 3, 5, 7, and 14 days hypoxic groups, whereas the Cygb protein expression was increased at 1, 3, 5, 7, and 14 days hypoxic groups compared to control group. The correlation between Ngb with cytochrome c was weakly statistically insignificant, and Cygb with cytochrome c was statistically insignificant. The CSH induced the HIFlα, which was shown by a high increase at 7 days hypoxic group, as well as stress oxidative which was represented by MDA at 1, 3, and 5 days hypoxic groups, and decreased GSH at 1, 3, and 5 days hypoxic groups. There are differences in expression pattern of Ngb and Cygb in CSH. The expression of Ngb, as an adaptive response, occurs earlier and is more influenced by the duration of hypoxic condition compared to Cygb. Although the correlation is weak, the Ngb seems more likely to inhibit apoptosis compared to Cygb protein;Hypoxia has an important role in the pathophysiology of high mortality diseases, such as ischemic cardiovascular disease, stroke, cancer, chronic lung disease, and congestive heart failure. The proteins belonged to globin protein group, included neuroglobin (Ngb) and cytoglobin (Cygb), have been presumed to play a role in regulating the oxygen supply into the mitochondria and protecting the brain tissues from damage due to hypoxia (neuroprotectant). An alteration in protein expression due to a homeostatic shift is an important adaptation process in biochemistry. Therefore, the expression pattern of Ngb and Cygb as well as their protein roles in brain during a chronic systemic hypoxia condition (CSH) remain unclear. This study aim to analyse the differences of the Ngb and Cygb expression patterns, and correlation of both protein to apoptosis in chronic systemic hypoxic condition. Ngb, Cygb, Cytochrome c, MDA, GSH, and HIF-1 α. were examined. An in vivo experimental model of CSH was carried out using rat. The experimental rats were randomly divided into 6 treatment groups, i.e. group I was a control group or without hypoxic condition, groups II, III, IV, V, and VI were treated by hypoxic condition for 1, 3, 5, 7, and 14 days, respectively. The Ngb and Cygb expressions were analysed using real time-RTPCR, ELISA, immunofluorescence with FITC, and the measurement of stress oxidative biomarkers, included HIF-1α as a biomarker of hypoxic condition and cytochrome c as a biomarker of apoptosis. The CSH was increased the mRNA expression of Ngb at 3, 5, and 7 days hypoxic groups, while the protein expression was decreased at 1, 3, 5, 7, and 14 days hypoxic groups compared to control group. The mRNA expression of Cygb was decreased at 1, 3, 5, 7, and 14 days hypoxic groups, whereas the Cygb protein expression was increased at 1, 3, 5, 7, and 14 days hypoxic groups compared to control group. The correlation between Ngb with cytochrome c was weakly statistically insignificant, and Cygb with cytochrome c was statistically insignificant. The CSH induced the HIFlα, which was shown by a high increase at 7 days hypoxic group, as well as stress oxidative which was represented by MDA at 1, 3, and 5 days hypoxic groups, and decreased GSH at 1, 3, and 5 days hypoxic groups. There are differences in expression pattern of Ngb and Cygb in CSH. The expression of Ngb, as an adaptive response, occurs earlier and is more influenced by the duration of hypoxic condition compared to Cygb. Although the correlation is weak, the Ngb seems more likely to inhibit apoptosis compared to Cygb protein, Hypoxia has an important role in the pathophysiology of high mortality diseases, such as ischemic cardiovascular disease, stroke, cancer, chronic lung disease, and congestive heart failure. The proteins belonged to globin protein group, included neuroglobin (Ngb) and cytoglobin (Cygb), have been presumed to play a role in regulating the oxygen supply into the mitochondria and protecting the brain tissues from damage due to hypoxia (neuroprotectant). An alteration in protein expression due to a homeostatic shift is an important adaptation process in biochemistry. Therefore, the expression pattern of Ngb and Cygb as well as their protein roles in brain during a chronic systemic hypoxia condition (CSH) remain unclear. This study aim to analyse the differences of the Ngb and Cygb expression patterns, and correlation of both protein to apoptosis in chronic systemic hypoxic condition. Ngb, Cygb, Cytochrome c, MDA, GSH, and HIF-1 α. were examined. An in vivo experimental model of CSH was carried out using rat. The experimental rats were randomly divided into 6 treatment groups, i.e. group I was a control group or without hypoxic condition, groups II, III, IV, V, and VI were treated by hypoxic condition for 1, 3, 5, 7, and 14 days, respectively. The Ngb and Cygb expressions were analysed using real time-RTPCR, ELISA, immunofluorescence with FITC, and the measurement of stress oxidative biomarkers, included HIF-1α as a biomarker of hypoxic condition and cytochrome c as a biomarker of apoptosis. The CSH was increased the mRNA expression of Ngb at 3, 5, and 7 days hypoxic groups, while the protein expression was decreased at 1, 3, 5, 7, and 14 days hypoxic groups compared to control group. The mRNA expression of Cygb was decreased at 1, 3, 5, 7, and 14 days hypoxic groups, whereas the Cygb protein expression was increased at 1, 3, 5, 7, and 14 days hypoxic groups compared to control group. The correlation between Ngb with cytochrome c was weakly statistically insignificant, and Cygb with cytochrome c was statistically insignificant. The CSH induced the HIFlα, which was shown by a high increase at 7 days hypoxic group, as well as stress oxidative which was represented by MDA at 1, 3, and 5 days hypoxic groups, and decreased GSH at 1, 3, and 5 days hypoxic groups. There are differences in expression pattern of Ngb and Cygb in CSH. The expression of Ngb, as an adaptive response, occurs earlier and is more influenced by the duration of hypoxic condition compared to Cygb. Although the correlation is weak, the Ngb seems more likely to inhibit apoptosis compared to Cygb protein]"

"ABSTRACTKondisi hipoksia menyebabkan stabilisasi HIF-1α, yang mengatur ekspresi beberapa gen seperti Carbonic Anhydrase 9 (CA9). CA9 merupakan enzim yang memediasi homeostasis pH melalui reaksi reversibel CO2 dan H2O menjadi HCO3 - and H+.Aktivitas enzim CA pada sel tubulus ginjal yang meningkat seiring dengan kondisi hipoksia menyebabkan peningkatan ion H+ dalam urin. Pada kondisi tersebut, sel tubulus ginjal akan mensekresikan NH3 (amonia) ke dalam cairan tubulus sebagai penyangga sehingga sekresi H+ dari sel tubulus dapat terus berlangsung. NH3 akan bereaksi dengan H+ membentuk NH4 + (amonium). NH3 dihasilkan dari deaminasi glutamin oleh enzim glutaminase yang disintesis di dalam sel tubulus. 25 tikus jantan Sprague Dawley (Rattus norvegicus L.) dibagi menjadi 5 kelompok. Sebanyak 20 tikus diinduksi dengan hipoksia (O2 10%) sebagai pemicu stabilisasi HIF-1α dan diobservasi selama 1, 3, 5, dan 7 hari pasca induksi. Kelompok kontrol tidak mendapat perlakuan induksi hipoksia. Semua tikus kemudian didekapitasi. Dari sampel ginjal, dilakukan pemeriksaan ekspresi mRNA HIF-1α, CA9, dan Gls1 (dengan real time RT-PCR), protein HIF-1α (dengan ELISA) serta aktivitas enzim CA total dan glutaminase. Ekspresi tertinggi mRNA HIF-1α, dan Gls1 dicapai pada hari ke-5 sedangkan ekspresi tertinggi mRNA CA9, dicapai pada 7 hari pasca induksi hipoksia. Konsentrasi protein HIF-1α sendiri tidak berbeda bermakna untuk semua kelompok. Aktivitas tertinggi enzim CA dan glutaminase dicapai pada kelompok 5 hari. Peningkatan mRNA dan aktivitas CA9 dan Gls1 pada kondisi hipoksia menunjukkan peran penting keduanya dalam menjaga homeostasis pH pada ginjal. Peningkatan mRNA CA9 dan Gls1 juga seiring dengan peningkatan mRNA HIF-1α yang menunjukkan bahwa ada korelasi positif antara HIF-1α dengan kedua gen tersebut.

---

ABSTRACT

Hypoxia can stabilize HIF-1α, a protein that regulates many of genes involved in angiogenesis, erythropoiesis, glycolysis, iron metabolism, and cell survival. One of these genes is Carbonic Anhydrase IX (CA IX). CA IX is an enzyme which maintains pH homeostasis by converting CO2 and H2O into HCO3 - and H+ ions.

The activity of Carbonic Anhydrase in renal tubulus cell can cause an increase of H+ ion in urine. H+ ion must be buffered to prevent its gradient increase that can obstruct H+ secretion. In kidney, NH3 and H+ play an important role to form NH4 +, so secretion of H+ will be continued for pH homeostasis. Glutaminase function in conversion of glutamine into glutamate and NH3 was observed in this study. The samples were obtained from kidney tissues of rat exposed to chronic systemic hypoxia (O2 10% : N2 90%) for 1, 3, 5 and 7 days. Expression of HIF-1α, CA9, and Gls1 mRNA were examined by real time RT-PCR. HIF-1α protein was measured using Cusabio® ELISA, as with the specific activity of CA and glutaminase were measured by spectrophotometer. The maximum levels of HIF-1α and Gls1 mRNA, were achieved in 5 days after hypoxia induction, meanwhile CA9 mRNA expression was found to be the highest at 7 days after induction. HIF-1α protein did not differ significantly among the groups. The maximum CA and glutaminase specific activity was measured at 5 days group. The increase of mRNA and specific activity of both CA and Gls1 in hypoxia shows that both of these protein have an important role for encountering the changing of pH in kidney, especially in the first 5 days. The significant increase of CA9 and Gls1 mRNA is also in line with the increase of HIF-1α mRNA. It can be concluded that expression of CA9 and Gls1 gene is regulated by HIF-1α, although the HIF-1α protein have no difference among the groups."

"Tujuan: Tujuan penelitian ini adalah untuk menganalisis perubahan ekspresi mRNA dan aktivitas spesifik H,K-ATPase serta ekspresi mRNA CA 9 dan aktivitas spesifik CA total pada lambung tikus yang diinduksi hipoksia sistemik kronik.Metode: Penelitian ini menggunakan 25 tikus jantan Sprague-Dawley (Rattus norvegicus). Hewan coba dibagi menjadi 5 kelompok, yaitu kelompok kontrol, hipoksia 1 hari, hipoksia 3 hari, hipoksia 5 hari, dan hipoksia 7 hari. Seluruh hewan coba (kecuali kelompok kontrol) diinduksi hipoksia dengan memberikan 10% O2 dan 90% N2. Setelah diberikan perlakuan induksi, seluruh hewan coba dikorbankan, kemudian jaringan lambung diisolasi, dan digunakan sebagai sampel. Parameter yang diukur adalah ekspresi dan aktivitas spesifik H,K-ATPase dan CA. Ekspresi mRNA diukur menggunakan real time RT-PCR, aktivitas spesifik H,K-ATPase menggunakan fosfat sebagai larutan standar, dan aktivitas spesifik CA total menggunakan p-nitrofenol sebagai larutan standar.Hasil : Ekspresi mRNA H,K-ATPase berubah mulai hari pertama induksi sampai hari ketujuh. Perubahan tersebut berbeda bermakna (Kruskal-Wallis, p=0,003). Ekspresi mRNA H,K-ATPase meningkat pada hari pertama induksi, dan menurun drastis dari hari ketiga sampai hari ketujuh. Ekspresi tertinggi terjadi pada hari pertama. Aktivitas spesifik H,K-ATPase juga berubah mulai hari pertama induksi sampai hari ketujuh, tetapi perubahan tersebut tidak berbeda bermakna (ANOVA, p=0,126). Aktivitas spesifik H,K-ATPase meningkat pada hari pertama induksi, kemudian mengalami penurunan pada hari ketiga dan kelima, dan naik kembali pada hari ketujuh. Aktivitas tertinggi terjadi pada hari ketujuh. Ekspresi mRNA CA 9 berubah mulai hari pertama induksi sampai hari ketujuh, tetapi perubahan tersebut tidak berbeda nermakna (Kruskal-Wallis, p=0,06). Ekspresi mRNA CA 9 lebih rendah dibanding kontrol, dan ekspresi terendah pada hari ketujuh. Aktivitas spesifik CA total berubah mulai hari pertama induksi sampai hari ketujuh. Perubahan tersebut berbeda bermakna (ANOVA, p=0,003). Aktivitas spesifik CA total menurun pada hari pertama dan ketiga, kemudian meningkat pada hari kelima sampai hari ketujuh. Aktivitas tertinggi terjadi pada hari ketujuh.Kesimpulan: Kondisi hipoksia menyebabkan terjadinya perubahan ekspresi dan aktivitas enzim pada lambung. Ekspresi mRNA H,K-ATPase dan CA 9 mengalami penurunan, sementara itu, aktivitas spesifik H,K-ATPase dan CA total mengalami penurunan.

---

Background: The purpose of research is to analyze the alteration of H,K-ATPase mRNA expression and specific activity; CA 9 mRNA expression and total CA specific activity in rat gastric were induced by chronic systemic hypoxic.

Methods: The research used twenty five male Sprague-Dawley rats (Rattus norvegicus). Animals were divided into 5 groups, control, 1, 3, 5, and 7 days hypoxia. All of rats (except the control group) were induced by hypoxia with 10% O2 and 90% N2 supply. After treatment, all of rats were sacrificed, and gastric tissue were isolated and used as samples. Parameter measured were expression and specific activity of H,K-ATPase and carbonic anhydrase. The mRNA expression were measured using real time RT-PCR, specific activity of H,K-ATPase used phosphate as standard solution, and activity of total CA used p-nitrophenol as standard solution.

Results: The expression of mRNA H,K-ATPase changed from the first to seventh day of observation. Change of expression was significant (Kruskal-Wallis, p=0,003). The expression of mRNA H,K-ATPase increased in the first day, and drastically decreased from the third to the seventh day. The highest of expression on the first day. Specific activity of H,K-ATPase was also changed from the first to the seventh day, but not significant (ANOVA, p=0,126). Specific activity of enzyme increased in the first day, decreased in the third and the fifth day, and increased again in the seventh day. The highest of activity on the seventh day. The expression of mRNA CA 9 changed from the first to the seventh day, but not significant (Kruskal-Wallis, p=0,06). The expression of mRNA CA 9 was lower than control, and the lowest on the seventh day. Specific activity of total CA changed from first to seventh day. Change of activity was significant (ANOVA, p=0,003). Specific activity of enzyme decreased in the first and the third day, and increased in the fifth to the seventh day. The highest of activity on the seventh day.

Conclusion: Hypoxia condition caused alteration of gastric?s enzyme expression and activity. The expression of mRNA H,K-ATPase and CA 9 were decreased, whereas, specific activity of H,K-ATPase and total CA were increased."

" ABSTRAKPendahuluan: Jantung adalah organ yang metabolisme energinya bersifat aerobikdan mutlak memerlukan oksigen sebagai akseptor elektron terakhir dalampembentukan ATP. Pada keadaan hipoksia, terjadi pembentukan radikal bebasakibat terganggunya aliran elektron yang kemudian mengakibatkan stres oksidatifsehingga menyebabkan kerusakan jaringan. Glutation (GSH) merupakanantioksidan endogen yang dapat menangkal radikal bebas sehingga mencegahkerusakan jaringan. Penelitian ini bertujuan untuk menganalisis pengaruh hipoksiasistemik selama 1 3 5 dan 7 hari terhadap kadar GSH jaringan jantungMetodologi Jaringan jantung berasal dari tikus Sprague-Dawley jantan usia 6 8 minggu yang telah terpapar kondisi normoksik sebagai kontrol dan kondisihipoksia sistemik berkelanjutan selama 1 3 5 dan 7 hari. Kadar GSH kemudiandiukur dan dianalisa menggunakan ANOVA. Hasil: Hasil penelitianmenunjukkan bahwa hipoksia sistemik berkelanjutan selama 1 3 5 dan 7 haritidak menunjukkan perbedaan bermakna kadar GSH jaringan jantung p 005Kadar GSH terendah yang ditemukan pada hari 3 1395 ng mg proteinKesimpulan Hipoksia sistemik berkelanjutan pada penelitian in tidakberpengaruh terhadap kadar GSH jaringan jantung.

---

ABSTRAKIntroduction: Heart is an organ which the aerobic energy metabolism of it needsoxygen as a final electron for the needs of ATP production. In hypoxic conditionthe electron flow is interrupted; causing free radicals formation leading tooxidative stress and potentially causes tissue damage. Glutathione (GSH) worksas an endogenous antioxidant to counteract free radicals thus preventing tissuedamage. This study aimed to analyze the correlation between hypoxia within 1 35 and 7 days with GSH levels in the heart tissue. Method The heart sample ofwas obtained from male SpragueDawley 6 8 weeks old) that has been exposedto normoxic condition as the control and continuous systemic hypoxia within 13 5 and 7 days The GSH level was then measured and analyzed using ANOVA.Results The result of this study depicted that continuous systemic hypoxiaexposure of 1 3 5 and 7 days showed no significant differences to the GSH levelof the heart tissue p 0.05 The lowest GSH level was found on day 3 1 395ng mg protein Conclusion Continuous systemic hypoxia in this study showedno influence in GSH level in the heart tissue."

"Tujuan: Tujuan penelitian ini adalah untuk mempelajari perubahan ekspresi dan aktivitas spesifik karbamoil fosfat sintetase 1 (Carbamoyl Phosphate Synthetase 1/CPS 1) dan protein HIF-1α (hypoxia-inducible factor) pada hati tikus (Rattus norvegicus) selama hipoksia sistemik kronik. Disain: Disain penelitian ini adalah eksperimen in vivo dengan menggunakan tikus sebagai hewan coba. Metode: Ada lima perlakukan tikus; tikus kontrol, hipoksia 1 hari, hipoksia 3 hari, hipoksia 5 hari dan hipoksia 7 hari. Ekspresi gen karbamoil fosfat sintetase 1 (CPS1) diukur menggunakan real time RT-PCR dan menggunakan 18s rRNA sebagai gen referensi. Aktivitas spesifik CPS1 diukur menggunakan hidroksiurea sebagai larutan standar. Metode ELISA digunakan untuk mengukur protein HIF-1α. Hasil : Ekspresi gen karbamoil Fosfat Sintetase 1 meningkat secara signifikan dan menunjukkan ekspresi tertinggi daripada perlakuan lain pada satu hari hipoksia dibandingkan dengan kelompok control. Pada hipoksia hari berikutnya, ekspresi CPS1 menurun secara signifikan dibandingkan kelompok control (ANOVA, p<0,05). Aktivitas spesifik CPS1 meningkat secara signifikan pada satu hari dan tiga hari hipoksia dibanding kelompok control (ANOVA, p<0,05). Protein HIF-1α juga dipengaruhi oleh induksi hipoksia (ANOVA, p<0,05). Hubungan antara ekspresi dan aktivitas CPS1 menunjukkan hubungan positif kuat dan hubungan protein HIF-1α dan ekspresi CPS1 menunjukkan hubungan positif sedang (Pearson, p<0,05). Sedangkan hubungan antara protein HIF-1α dan aktifitas spesifik menunjukkan tidak ada hubungan secara statistik. Kesimpulan: Kondisi hipoksia berperan penting dalam pengaturan ekspresi gen dan aktivitas spesifik CPS1 serta protein HIF-1α. Regulasi ekspresi gen CPS1 oleh HIF-1α belum diketahui.

---

Background: The aim of this research is to study the changeover of expression and specific activity of Carbamoyl Phosphate Synthetase 1 (CPS 1) and HIF-1α protein of rat (Rattus norvegicus) liver during systemic chronic hypoxia.

Design: Design of this research is an in vivo experimental study using rat as laboratory animal.

Method: There are five treatment of rats; control, 1 day of hypoxia, 3 days of hypoxia, 5 days of hypoxia and 7 days of hypoxia. Carbamoyl phosphate synthetase 1 gene expression was measured using real time RT-PCR and using 18s RNA gene as housekeeping gene. The specific activity of CPS1 was measured using hydroxyurea as standard solution. ELISA was performing in order to measure HIF-1α protein.

Result: Carbamoyl phosphate synthetase 1 gene expression was increased significantly and shows the highest expression than other treatment in one day of systemic chronic hypoxia treatment of rat liver compared with control group. And the following days of hypoxia CPS1 gene expression were decreased significantly than control group (ANOVA, p<0,05). The specific activity of CPS1 was increased significantly in one day and three days of systemic chronic hypoxia than control group (ANOVA, p<0,05). The HIF-1α protein was decreased in one day and increased in three days of systemic chronic hypoxia than control group (ANOVA, p<0,05). The correlation between expression and specific activity of CPS1 shows strong positive correlation and between HIF-1α protein and CPS1 expression shows moderate positive correlation (Pearson, p<0,05). The HIF-1α protein and specific activity of CPS1 shows no correlation statistically.

Conclusion: Hypoxic condition plays an important role in the regulation of gene expression and specific activity of CPS1 and HIF-1α protein. Regulation of CPS1 gene expression by HIF-1α is not known yet."

"ABSTRAKHipoksia hipobarik intermiten HHI dengan menggunakan protokol profil penerbangan modifikasi Mulyawan pada ruang hipobarik dapat digunakan sebagai model hipoksia yang bersifat melindungi melalui ekspresi HIF-1? dan protein yang diregulasinya yang bermanfaat dalam mengatasi radikal bebas yang terbentuk selama induksi tersebut. Pada penelitian ini dinilai ekspresi protein sitoglobin Cygb dan neuroglobin Ngb serta aktivitas spesifik asetilkolin esterase AChE sebagai dampak dari induksi HHI pada tikus dewasa. Digunakan 25 tikus Sprague-Dawley dewasa yang terbagi atas dua kelompok kontrol yakni normoksia dan hipoksia hipobarik akut HHA , serta 3 kelompok yang terpapar HHI kelompok pertama terpapar pada hari ke-1 dan ke-8 IHH1x , kelompok ke-2 terpapar pada hari ke-1, -8 dan -15, sedangkan kelompok ke-3 terpapar pada hari ke-1, -8, -15 dan -22 . Sitoglobin dan Ngb menurun pada induksi akut dan meningkat secara signifikan seiring dengan peningkatan frekuensi paparan HHI. Aktivitas spesifik AChE meningkat secara signifikan sejak paparan pertama HHA namun kemudian menurun pada induksi terakhir IHH3x . Dari hasil penelitian ini disimpulkan bahwa pada HHI3x terjadi respons adaptasi yang bersifat melindungi jaringan otak tikus percobaan terhadap perlakuan.

---

ABSTRACTProposed as a protective model of hypoxia via HIF 1 expression, intermittent hypobaric hypoxia IHH in the rat, using Mulyawan rsquo s modified flight profile in a hypobaric chamber, is known to be useful in overcoming the free radicals formed during the induction. Using the same method, this study 39 s aims are to investigate cytoglobin Cygb and neuroglobin Ngb protein expressions and specific activity of acetylcholine esterase as the impacts of the IHH induction in adult rats. We used 25 adult Sprague Dawley male, divided into 2 control groups normoxia and acute hypobaric hypoxia AHH , and 3 IHH exposed groups the first group was exposed on day 1 and 8 IHH 1x the second group on day 1, 8 and 15 IHH 2x and the third group on day 1, 8, 15 and 22 IHH 3x . Cytoglobin and Ngb were decreased in the acute induction and increased significantly along with the increasing frequency of the IHH induction. The specific activity was increased significantly since the first AHH induction of hypobaric hypoxia but then decreased in the last induction IHH3x . From these findings, it is concluded that IHH, especially IHH3x, seems to be a protective adaptive response in the rat rsquo s brain tissue. "

"Keadaan hipoksia dapat membuat sel melakukan adaptasi melalui ekspresi berbagai macam gen. Banyak gen tersebut adalah gen yang diinduksi oleh suatu faktor transkripsi yang disebut HIF-I HlF-la adalah subunit yang diregulasi oleh kadar oksigen untuk aktifitas faktor transkripsi tersebut.Penelitian ini bertujuan untuk mengetahui bagaimana pola mRNA HIF 1u dan ekspresi protein HIF-ln pada organ ginjal dari tikus yang mengalami kondisi hipoksia secara sistemik yang terbagi menjadi 5 kelompok berdasarkan lamanya perlakuan (kelompok kontrol, hipoksia 13, 7 dan 14 hari masing-masing 6 ekor tikus) menggunakan Hypoxic Chamber dengan kadar 02 8% dan Nitrogen 92%. Pola mRNA HIF-la dilihat berdasarkan basil RT-PCR dengan membandingksn rasio kelompok nonnoksia dan kelompok hipoksia. Ekspresi protein HIF-1a dilakukan dengan metode Western Blot dengan menggunakan anti HIF-la sebagai antibodi primer.Hasil penelitian menunjukkan terdapat penurunan ekspresi mRNA HIF-la dibandingkan kontrol pada kelompok hipoksia 1 hari dan diikuti peningkatan pada kelompok hipoksia 3 hari dan mulai mengalami penurunan kembali pada kelompok 7 hari. Sementara protein HIF-la. memperlihatkan terdapatnya peningkatan ekspresi protein HIF-la yang mulai mengalami penurunan pada kelompok hipoksia 14 hari. Dapat disimpulkan bahwa regulasi H1F-1a terjadi pada tahap transkripsi dan tahap pasca translasi.

---

Hypoxia could make cell to adapt trough gene expression. Many of these gene induced by the transcription factor called HIP-1. HIF-I tz is the subunit which regulated by oxygen level to activated the transcription factor.

The aim of this study is to know the pattern of Hypoxia Inducible Factor-Ia (HIP-la) mRNA and HIF-Ia protein Expression of Renal Rat in Systemic Chronic Hypoxia which divided to 5 groups based on the duration of hypoxia (control, I, 3, 7, and I4 days of hypoxia with 6 rats each group ) using hypoxia chamber with 8% oxigen and 92% Nitrogen. The pattern was measure with RT-PCR which combine the ratio of control group and the hypoxic group. The protein expression measure with Western Blot method using anti HIF-l a as 1? antibody.

The result shows that HIP-lo. mRNA expression decrease in 1" day of hypoxia, elevated and reach a peak at 3 days of hypoxia and start to decrease since then. While the HIP-lo. protein shows an increase expression until I4 days of hypoxia which start to decrease. It can be concluded that HIF-la regulation occurs in transcription level and post translation."

"ABSTRAKPenelitian ini bertujuan untuk mempeiajari konsumsi glukosa. aktivitas spesifik LDHdan pola isozim LDH pada kondisi hipoksia sistemik kronik. Penelitian dilakukanterhadap hati tikus yang diinduksi hipoksia sistemik kronik 1, 3. 7 dan 14 hari.Konsumsi glukosa diukur dengan metode enzimatik Trlnder. Aktivitas spesiflk LDHdiukur dengan metode German Society of Clinical Chemistry (DGKC). Poia isozimLDH dianaJisis dengan eJektroforesis Titan Gel. Hasil peneHtian menunjukkan bahwakonsumsi g!ukosa pada hipoksia sistemik kronik cenderung rneningkat walaupuntidak. berbeda dengan kontrol. Aktivitas spesIfik LDH ditemukan paling tinggi padahipoksia 3 hari sedangkan pola elektroforesis isozim LDH menunjukkan perbeda.anpada hari ke-3 dan ke-7 hipoksia dengan kontroL Tidak terdapat hubungan antarakonsumsi glukosa dengan aktivitas spesifik LDH.

---

ABSTRACTThe aim of this study was to observe glucose consumption, specific activity ofLDH and electrophoretic LDH isoenzyme patterns on systemic chronic hypoxia. Thestudy was carried out with Jiver tissue of rats exposed to systemic hypoxia for 3, 7and 14 days. Glucose consumption was measured by Trinder method. The specificactivity ofLDH was performed using Gcnnan Society of Clinical Chemistry (DGKC)method, while LDH isoenzyme patterns were analyzed using Titcm Gelelectrophoresis, Results indicated that glucose consumption showed tendencies toincrease compared to control group, although the difference were not sigr.itlcant. Thespecific activity of LDH was highest on day 3 of the hypoxic group. Electrophoreticpatterns of LDH isoenzyme showed differences on day 3 and day 7 of hypoxia withcontroL It is concluded that glucose consumption is not related to specific activity ofLDH."

"ABSTRACTHypoxia is described as a condition of decreased oxygen supply to the tissue and leads to the formation of free radicals. This phenomenon induces cell damage and initiates the pathogenesis of degenerative diseases. An enzyme known as catalase physiologically scavenges the free radicals at a cellular level. This research aims to observe the catalase specific activity in the rat heart following exposure to systemic continuous hypoxia for 1, 3, 5, and 7 days. Groups were divided according to the duration of hypoxia exposure. Catalase specific activity is calculated between groups and was measured using a spectrophotometer. Results showed catalase specific activity was relatively lower on day 1, however, it increased on day 3 and reached the peak on day 5, followed by a dramatic decrease on day 7. ANOVA test revealed significant difference within groups.

---

ABSTRAKHipoksia adalah kondisi berkurangnya suplai oksigen yang merangsang pembentukan radikal bebas di dalam sel. Enzim katalase adalah salah satu enzim yang berperan untuk mengatasi radikal bebas di dalam sel. Radikal bebas yang terbentuk dapat menyebabkan kerusakan sel dan berperan dalam patogenesis berbagai penyakit degeneratif. Penelitian ini bertujuan untuk mengamati aktivitas spesifik enzim katalase pada organ jantung tikus setelah perlakuan hipoksia sistemik kontinu selama 1, 3, 5, dan 7 hari. Kelompok eksperimen dibagi sesuai lama perlakuan hipoksia. Parameter yang diukur adalah aktivitas spesifik katalase dengan menggunakan spektrofotometer. Hasil menunjukkan bahwa aktivitas spesifik katalase menurun setelah hari 1, namun meningkat pada hari 3 dan mencapai puncak pada hari 5, kemudian sedikit berkurang pada hari 7, menyerupai aktivitas katalase kelompok kontrol kelompok yang tidak terpapar hipoksia . Data diuji dengan menggunakan tes ANOVA. Secara statistik, terdapat perbedaan bermakna antara grup."