Home  About us  Contact
 

Yorkshire Swine (yorkshire + swine)

Distribution by Scientific Domains
Medical Sciences50%

Selected Abstracts

Genetically Manipulated Human Skeletal Myoblast Cells for Cardiac Transplantation

JOURNAL OF CARDIAC SURGERY, Issue 6 2002
Kh H Haider
Aim: Considering the promise of skeletal myoblast cell transplantation to improve cardiac function in myocardial myopathies, we aim in the present study to investigate the potential of human skeletal myoblast cells (HSMC) as a carrier for therapeutic genes for the heart muscle. Methods: Skeletal muscle sample is obtained from rectus femoris of the donor and is processed in the tissue culture to generate HSMC by a patented process of Cell Therapy Inc. The HSMC are grown in large 225 mm2 tissue culture flasks coated with collagen for enhanced cell adherence, using patented Super Medium (Cell Therapy Inc., Singapore) containing 10% fetal calf serum, to 80% confluence. The HSMC are passaged at regular time intervals of 48-72 hours to prevent in vitro differentiation. The HSMC thus obtained are transduced three times with retroviral vector carrying Lac-Z reporter gene before transplantation. The Lac-Z transduced HSMC are harvested by trypsinization, washed and re-suspended in serum free Super Medium. Ischemic Porcine model is created by clamping ameroid ring around left circumflex coronary artery in Yorkshire swine, four weeks prior to cell transplantation. For cell transplantation, the animal is anaesthetized, ventilated and heart is exposed by left thoracotomy. Fifteen injections (0.25 ml each) containing 300 million cells are injected in to the left ventricle endocardially under direct vision. For control animal, only culture medium without cells is injected. The animal is euthanized at pre-determined time, heart is explanted and processed for histological examination. The cryosectioning of the tissue and subsequent staining for Lac-Z expression and Hematoxylin-Eosin staining is carried out by standard methods. Results: The skeletal muscle samples processed by the patented method of Cell Therapy yield 85-90% pure HSMC. The preliminary data shows that repeated transductions of myoblast cells with retrovirus carrying Lac-Z yield highly efficient 70-75% Lac-Z positive HSMC population (Figure 1). Dye exclusion test using Trypan blue reveals >95% cell viability at the time of injection. Gross sections of the cardiac tissue stained positive for Lac-Z expression (Figure 2). Histological examination showed the presence of grafted myoblast cells expressing Lac-Z gene in the cardiac tissue (Figure 3). Conclusion: In the light of our preliminary results, we conclude that HSMC may prove to be excellent carriers of transgene for cardiac muscle cells which otherwise are refractory to ordinary gene transfection methods. The use of HSMC mediated gene delivery to cardiac muscle is safer as compared to direct injection of viral vectors in to the heart muscle. Furthermore, the grafted myoblast cells will additionally serve to strengthen the weakened heart muscle. Figure 1.Human Skeletal myoblasts transduced with Lac-Z carrying retrovirus and stained with x-gal. Figure 2.Gross sections of heart muscle stained for Lac-Z expression. Figure 3.X-gal stained porcine heart muscle counter-stained with Eosin. The heart was explanted 6 weeks after transplantation of Lac-Z stained human myoblasts. The arrow shows Lac-Z expressing myoblast cells. [source]

Beta-Adrenergic Stimulation of Pig Myocytes with Decreased Cytosolic Free Magnesium Prolongs the Action Potential and Enhances Triggered Activity

JOURNAL OF CARDIOVASCULAR ELECTROPHYSIOLOGY, Issue 6 2002
SHAO-KUI WEI M.D.
Beta-Adrenergic Stimulation and Repolarization.Introduction: Heart failure results in chronic beta-adrenergic stimulation, repolarization lability, and arrhythmias associated with early afterdepolarizations (EADs) and delayed afterdepolarizations (DADs). Having described a significant reduction in intracellular free magnesium ([Mg2+]i) in experimental heart failure, we asked whether a reduction in [Mg2+]i would delay repolarization or facilitate EADs and/or DADs. Methods and Results: Left ventricular myocytes were isolated from Yorkshire swine. Cytosolic free [Mg2+] was set at 0.12 mM (LoMg) or 1.2 mM (HiMg) through pipette dialysis. Action potentials (AP), Ca current (ICa), and sodium/calcium exchange current (INCX) were measured in the presence or absence of isoproterenol (2 ,M) at 37°C. Under basal conditions (0.1-Hz stimulation, 2 mM external [Ca2+]), reducing [Mg2+]i had no effect on AP duration and ICa but did significantly enhance INCX. In contrast, during superfusion with isoproterenol, reduced [Mg2+]i caused a significant increase in AP duration at both 50% and 90% repolarization (APD50 and APD90) compared with HiMg (P < 0.05). LoMg cells manifested a high incidence of triggered activities, including spontaneous AP, EADs, and DADs (83.3% in LoMg, n = 12 vs 38.3% in HiMg, n = 13; P < 0.05). ICa and INCX were significantly increased in LoMg cells compared with HiMg cells (P < 0.05). Conclusion: Decreased cytosolic free magnesium prolongs AP duration and increases the incidence of triggered activity during beta-adrenergic stimulation. These effects may be due to increased ICa and INCX in the presence of reduced intracellular [Mg2+]. A magnesium-dependent increase in triggered activity coupled with delayed repolarization during beta-adrenergic stimulation could contribute to the arrhythmogenic substrate in heart failure. [source]

Enhancing the oral bioavailability of the poorly soluble drug dicumarol with a bioadhesive polymer

JOURNAL OF PHARMACEUTICAL SCIENCES, Issue 8 2003
Chris G. Thanos
Abstract This article investigates the effect of particle size and the incorporation of a bioadhesive polymer, poly(fumaric- co -sebacic) anhydride p(FA:SA), on the relative bioavailability of dicumarol. A novel method was used to reduce particle size of the drug, and encapsulated formulations were fabricated using a phase inversion technique to produce nanospheres and microspheres with varying size. Groups of Yorkshire swine were catheterized and gavaged after fasting for 12 h with each formulation in a 50 mg/mL suspension. Blood was collected at different time points, from 0 to 96 h, and pharmacokinetic analysis revealed that formulations incorporating the smaller drug particles showed the highest bioavailability: micronized drug with 7% p(FA:SA) 17:83 polymer had 190% relative bioavailability, and phase inverted p(FA:SA) 17:83 microspheres with 31% (w/w) loading had 198% relative bioavailability to spray dried formulation. Formulations with larger drug particles achieved 71% relative bioavailability. A nonadhesive formulation, fabricated with poly(lactic acid) (PLA), showed 91% relative bioavailability. Both particle size and polymer composition play a role in oral absorption of dicumarol. © 2003 Wiley-Liss, Inc. and the American Pharmacists Association J Pharm Sci 92:1677,1689, 2003 [source]

Relationships among calpastatin single nucleotide polymorphisms, calpastatin expression and tenderness in pork longissimus,

ANIMAL GENETICS, Issue 5 2009
A. K. Lindholm-Perry
Summary Genome scans in the pig have identified a region on chromosome 2 (SSC2) associated with tenderness. Calpastatin is a likely positional candidate gene in this region because of its inhibitory role in the calpain system that is involved in postmortem tenderization. Novel single nucleotide polymorphisms (SNP) in calpastatin were identified and used to genotype a population (n = 1042) of Duroc,Landrace,Yorkshire swine for association with longissimus lumborum slice shear force (SSF) measured at days 7 and 14 postmortem. Three genetic markers residing in the calpastatin gene were significantly associated with SSF (P < 0.0005). Haplotypes constructed from markers in the calpastatin gene were significantly associated with SSF (F -ratio = 3.93; P -value = 0.002). The levels of normalized mRNA expression of calpastatin in the longissimus lumborum of 162 animals also were evaluated by real-time RT-PCR and were associated with the genotype of the most significant marker for SSF (P < 0.02). This evidence suggests that the causative variation alters expression of calpastatin, thus affecting tenderness. In summary, these data provide evidence of several significant, publicly available SNP markers associated with SSF that may be useful to the swine industry for marker assisted selection of animals that have more tender meat. [source]