Objective:To investigate the morphological changes of the neuronal neurites in diabetic rabbit brain. Methods: Twenty- four New Zealand White rabbits were divided into 2 groups: control group and type Ⅱ diabetic grou...Objective:To investigate the morphological changes of the neuronal neurites in diabetic rabbit brain. Methods: Twenty- four New Zealand White rabbits were divided into 2 groups: control group and type Ⅱ diabetic group induced by high - carbohydrate and high- fat diet. The levels of blood sugar and insulin were detected at week 0(w0), w4, w8, w13, w18, w23 and w28. Brain tissue was stained by Nissl staining and immunolistochemistry with a specific antibody to neurofilament proteins. Result: In diabetic rabbits, the amount of large pyramidal neuron was significantly reduced, and neuronal neurites became swollen, whorled, disrupted and changed in caliber. In hippocampus CA1 region neurofilament staining was very weak. Conclusion: Neurotoxicity of chronic hyperglycemia might be relevant to vascular chronic complications, which affected the expression of NF and led to neurophysiological and structural changes in the brain of rabbits with type Ⅱ diabetes.展开更多
The open reading frame (ORF) of hAPOA1 was inserted into the prokaryotic expression vector pGEX-4T-1 to construct the recombinant plasmid pGEX- 4T-I-hAPOA1, which was then transformed into Escherichia coil strain BL...The open reading frame (ORF) of hAPOA1 was inserted into the prokaryotic expression vector pGEX-4T-1 to construct the recombinant plasmid pGEX- 4T-I-hAPOA1, which was then transformed into Escherichia coil strain BL21. The expression of target fusion protein was induced with isopropyl β-D-l-thiogalacto- pyranoside (IPTG). The purified fusion protein in inclusion bodies was used to immunize New Zealand white rabbits to prepare hAPOA1 antiserum and the antibody titer was detected with indirect enzyme-linked immunosorbent assay (ID-EL1SA). ID-ELISA and Western Blot proved that rabbit polyclonal antibody with a high titer of 1 : 40 000 was produced, which may bring considerable economic benefits.展开更多
To evaluate the therapeutic efficiency of tissue-engineered human corneal endothelia (TE-HCEs) on rabbit primary corneal endotheliopathy (PCEP),TE-HCEs reconstructed with monoclonal human corneal endothelial cells (mc...To evaluate the therapeutic efficiency of tissue-engineered human corneal endothelia (TE-HCEs) on rabbit primary corneal endotheliopathy (PCEP),TE-HCEs reconstructed with monoclonal human corneal endothelial cells (mcHCECs) and modified denuded amniotic membranes (mdAMs) were transplanted into PCEP models of New Zealand white rabbits using penetrating keratoplasty.The TE-HCEs were examined using diverse techniques including slit-lamp biomicroscopy observation and pachymeter and tonometer measurements in vivo,and fluorescent microscopy,alizarin red staining,paraffin sectioning,scanning and transmission electron microscopy observations in vitro.The corneas of transplanted eyes maintained transparency for as long as 200 d without obvious edema or immune rejection.The corneal thickness of transplanted eyes decreased gradually after transplanting,reaching almost the thickness of normal eyes after 156 d,while the TE-HCE non-transplanted eyes were turbid and showed obvious corneal edema.The polygonal corneal endothelial cells in the transplanted area originated from the TE-HCE transplant.An intact monolayer corneal endothelium had been reconstructed with the morphology,cell density and structure similar to those of normal rabbit corneal endothelium.In conclusion,the transplanted TE-HCE can reconstruct the integrality of corneal endothelium and restore corneal transparency and thickness in PCEP rabbits.The TE-HCE functions normally as an endothelial barrier and pump and promises to be an equivalent of HCE for clinical therapy of human PCEP.展开更多
Background:Heliotropium indicum is used as a traditional remedy for hypertension in Ghana.The aim of the study was to evaluate the anti-glaucoma potential of an aqueous whole plant extract of H.indicum to manage exper...Background:Heliotropium indicum is used as a traditional remedy for hypertension in Ghana.The aim of the study was to evaluate the anti-glaucoma potential of an aqueous whole plant extract of H.indicum to manage experimentally-induced glaucoma.Methods:The percentage change in intraocular pressure(IOP),after inducing acute glaucoma(15 mLkg^(−1) of 5%dextrose,i.v.),in New Zealand White rabbits pretreated with Heliotropium indicum aqueous extract(HIE)(30–300 mgkg^(−1)),acetazolamide(5 mgkg^(−1)),and normal saline(10 mLkg^(−1))per os were measured.IOPs were also monitored in chronic glaucoma in rabbits(induced by 1%prednisolone acetate drops,12 hourly for 21 days)after treatments with the same doses of HIE,acetazolamide,and normal saline for 2 weeks.The anti-oxidant property of the extract was assessed by assaying for glutathione levels in the aqueous humour.Glutamate concentration in the vitreous humour was also determined using ELISA technique.Histopathological assessment of the ciliary bodies was made.Results:The extract significantly reduced intraocular pressure(p≤0.05–0.001)in acute and chronic glaucoma,preserved glutathione levels and glutamate concentration(p≤0.01–0.001).Histological assessment of the ciliary body showed a decrease in inflammatory infiltration in the extract and acetazolamide-treated group compared with the normal saline-treated group.Conclusion:The aqueous whole plant extract of Heliotropium indicum has ocular hypotensive,anti-oxidant and possible neuro-protective effects,which therefore underscore its plausible utility as an anti-glaucoma drug with further investigation.展开更多
基金These authors contribute equally to this work.Supported by the Hunan science fourndation(JJY2069)
文摘Objective:To investigate the morphological changes of the neuronal neurites in diabetic rabbit brain. Methods: Twenty- four New Zealand White rabbits were divided into 2 groups: control group and type Ⅱ diabetic group induced by high - carbohydrate and high- fat diet. The levels of blood sugar and insulin were detected at week 0(w0), w4, w8, w13, w18, w23 and w28. Brain tissue was stained by Nissl staining and immunolistochemistry with a specific antibody to neurofilament proteins. Result: In diabetic rabbits, the amount of large pyramidal neuron was significantly reduced, and neuronal neurites became swollen, whorled, disrupted and changed in caliber. In hippocampus CA1 region neurofilament staining was very weak. Conclusion: Neurotoxicity of chronic hyperglycemia might be relevant to vascular chronic complications, which affected the expression of NF and led to neurophysiological and structural changes in the brain of rabbits with type Ⅱ diabetes.
基金Supported by the Agricultural Science Independent Innovation Fund Jiangsu Province[CX(16)1326]
文摘The open reading frame (ORF) of hAPOA1 was inserted into the prokaryotic expression vector pGEX-4T-1 to construct the recombinant plasmid pGEX- 4T-I-hAPOA1, which was then transformed into Escherichia coil strain BL21. The expression of target fusion protein was induced with isopropyl β-D-l-thiogalacto- pyranoside (IPTG). The purified fusion protein in inclusion bodies was used to immunize New Zealand white rabbits to prepare hAPOA1 antiserum and the antibody titer was detected with indirect enzyme-linked immunosorbent assay (ID-EL1SA). ID-ELISA and Western Blot proved that rabbit polyclonal antibody with a high titer of 1 : 40 000 was produced, which may bring considerable economic benefits.
基金Project (Nos.2001AA625050 and 2006AA02A132) supported by the National High-Tech R&D Program (863) of China
文摘To evaluate the therapeutic efficiency of tissue-engineered human corneal endothelia (TE-HCEs) on rabbit primary corneal endotheliopathy (PCEP),TE-HCEs reconstructed with monoclonal human corneal endothelial cells (mcHCECs) and modified denuded amniotic membranes (mdAMs) were transplanted into PCEP models of New Zealand white rabbits using penetrating keratoplasty.The TE-HCEs were examined using diverse techniques including slit-lamp biomicroscopy observation and pachymeter and tonometer measurements in vivo,and fluorescent microscopy,alizarin red staining,paraffin sectioning,scanning and transmission electron microscopy observations in vitro.The corneas of transplanted eyes maintained transparency for as long as 200 d without obvious edema or immune rejection.The corneal thickness of transplanted eyes decreased gradually after transplanting,reaching almost the thickness of normal eyes after 156 d,while the TE-HCE non-transplanted eyes were turbid and showed obvious corneal edema.The polygonal corneal endothelial cells in the transplanted area originated from the TE-HCE transplant.An intact monolayer corneal endothelium had been reconstructed with the morphology,cell density and structure similar to those of normal rabbit corneal endothelium.In conclusion,the transplanted TE-HCE can reconstruct the integrality of corneal endothelium and restore corneal transparency and thickness in PCEP rabbits.The TE-HCE functions normally as an endothelial barrier and pump and promises to be an equivalent of HCE for clinical therapy of human PCEP.
文摘Background:Heliotropium indicum is used as a traditional remedy for hypertension in Ghana.The aim of the study was to evaluate the anti-glaucoma potential of an aqueous whole plant extract of H.indicum to manage experimentally-induced glaucoma.Methods:The percentage change in intraocular pressure(IOP),after inducing acute glaucoma(15 mLkg^(−1) of 5%dextrose,i.v.),in New Zealand White rabbits pretreated with Heliotropium indicum aqueous extract(HIE)(30–300 mgkg^(−1)),acetazolamide(5 mgkg^(−1)),and normal saline(10 mLkg^(−1))per os were measured.IOPs were also monitored in chronic glaucoma in rabbits(induced by 1%prednisolone acetate drops,12 hourly for 21 days)after treatments with the same doses of HIE,acetazolamide,and normal saline for 2 weeks.The anti-oxidant property of the extract was assessed by assaying for glutathione levels in the aqueous humour.Glutamate concentration in the vitreous humour was also determined using ELISA technique.Histopathological assessment of the ciliary bodies was made.Results:The extract significantly reduced intraocular pressure(p≤0.05–0.001)in acute and chronic glaucoma,preserved glutathione levels and glutamate concentration(p≤0.01–0.001).Histological assessment of the ciliary body showed a decrease in inflammatory infiltration in the extract and acetazolamide-treated group compared with the normal saline-treated group.Conclusion:The aqueous whole plant extract of Heliotropium indicum has ocular hypotensive,anti-oxidant and possible neuro-protective effects,which therefore underscore its plausible utility as an anti-glaucoma drug with further investigation.
