USA millennial and non-millennial beef consumers perception of beef, pork, and chicken.

Millennials have been shown to have distinctly different behaviors; however, factors affecting their liking of beef, pork and chicken has not been fully elucidated. As millennials are current and future animal protein consumers, the question of if they have different drivers of liking for beef, pork, and chicken has not been answered. Top loin steaks cooked to 58.3 or 80 °C; and pork loin chops and chicken breasts cooked to 62.7 or 80 °C were cooked on a flat grill. Beef bottom round roasts cooked to 58.3 or 80°; and pork inside ham roasts and chicken thighs were cooked to 62.7 or 80 °C in a Crock-pot®. A descriptive flavor and texture attribute panel and a consumer central location test in four cities were used to evaluated flavor and texture attributes. Consumers were either millennials or non-millennials, and light or heavy beef-eaters. Meat descriptive flavor and texture attributes differed by cooking method, cut, and internal temperature (P < 0.05). Consumers preferred grilled meat more than meat cooked in the Crock-pot® (P > 0.05). Consumers rated grill flavor, juiciness, and tenderness (P ≥ 0.05) higher in grilled meat. Light beef-eaters, those who ate beef 2 to 4 times per month, rated overall, flavor, and species flavor lower (P < 0.05) than heavy beef-eaters, but consumers liked beef regardless of generational segment or their consumption of beef; however, millennials rated overall, overall flavor, and tenderness liking slightly lower than non-millennials. These results indicate that millennials have similar drivers of liking as non-millennials across beef, pork, and chicken protein sources.

Unique morphological alterations of the HTLV-I transformed C8166 cells by infection with HIV-1.

C8166 cells express T lymphocyte markers, a monocyte-specific esterase, taxpolypeptide of HTLV-I. In spite of this transactivator, their HIV-1 yield is low. Their culture conditions were modified, and infected cells were immobilized on a poly-L-lysine sheet under semisolid overlays to study their phenotypic alterations and HIV-1 production by microscopy and electron microscopy. Another lymphoid cultures (MT-4, CEM, CEM-ss, AdCEM) similarly treated were infected with either HIV-1/RF or IIIB. Specificity of HIV-1 was compared to the effects of vesicular stomatitis virus (VSV). Unlike other cultures, HIV-1/RF infected C8166 cells in Eagle s MEM exhibited surface projections resembling hairy leukemia cells, which was followed by balloon degeneration and apoptosis. Immobilized HIV-1 infected cultures formed flat syncytia with several interdigitating dendritic projections. Syncytia shrunk with condensed nuclear material and axon-like filaments characteristic for infected macrophages. VSV induced enlargement and necrotic lysis of all cell types. Early postinfection with HIV-1, electron microscopy revealed irreversible membrane fusion above cell nuclei, and transient fusion between filaments. Transient presence of coated vesicles containing intact HIV-1 particles, Birbeck granule-like structures of Langerhans cells, fibrillar-lamellar structures resembling hairy leukemia or Sézary cells were detected. Late postinfection, high proportion of HIV-1 bud from polarized cytoplasm was empty particle, while that bud and entrapped in cytoplasmic vacuoles contained two or multiple cores in a fused envelope. The effect of early gene products of HIV-1 on HTLV-I and C8166 cells might elicit their latent potentials for monocyte or interdigitating dendritic cells, while in the later phase HTLV-I products might alter HIV-1 virion assembly.

A study of cadmium transport pathways using the Caco-2 cell model.

The purpose of this study was to investigate the mechanism by which cadmium (Cd2+) crosses the intestinal epithelium using a Caco-2 cell model. Experimentation was designed to determine which of several possible pathways of transport are operative. These pathways include passive diffusion, transport via a calcium pathway, sulfhydryl-mediated transport, and carrier-mediated (active transport and/or facilitated diffusion) transport. To examine the diffusion pathway the effect of various apical cadmium concentrations on the amount of cadmium transported was tested. The effects of verapamil, calcium, and 1,25(OH)2 vitamin D3 (vit. D3) on Cd2+ transport were examined to investigate the possible existence of a calcium transport pathway. N-Ethylmaleimide, a sulfhydryl group blocker, was used to determine whether Cd2+ transport is sulfhydryl-mediated. Active transport was evaluated by examining the effect of 2,4-dinitrophenol, a metabolic inhibitor, on the transport of Cd2+. These studies indicated that: (1) a portion of the overall transport of Cd2+ can be attributed to diffusion, (2) stimulation of calcium binding protein transcription by vit. D3 enhances Cd2+ transport, and (3) the transport process for Cd2+ has both sulfhydryl-mediated and carrier-mediated components.

Inorganic mercury chloride-induced apoptosis in the cultured porcine renal cell line LLC-PK1.

HgCl2 is known to be a renal toxin, but its mechanisms of toxicity are not well understood. The cell line LLC-PK1 was used as a model for renal proximal tubule cells, and the effects of different concentrations of HgCl2 were studied. Apoptosis in response to 35 microM HgCl2 was confirmed by observation of morphological features characteristic of apoptotic cells as well as cleavage of chromosomal DNA into fragments of multiples of 200 base pairs. Ten percent of LLC-PK1 cells in a monolayer underwent apoptosis. These cells detached from the culture flask before apoptosis. Measurement of transepithelial resistance (TER) was used as a functional assay of junctional complex integrity in a novel approach to characterize preapoptotic events in this cell line. Monolayers of LLC-PK1 cells that contained apoptotic cells showed a transient decrease in TER followed by a recovery of TER to the initial levels. The decrease in TER was accompanied by a loss of hemicysts within the monolayer. These data indicate a temporary loss of junctional complexes within the monolayer during apoptosis. One hundred micromolar HgCl2 caused all cells to become necrotic within 3 hr. HgCl2 (10 microM) caused some changes in cell morphology, but no cell death.

Peripheral-type benzodiazepine receptors.

Since their first description as anomalous high affinity diazepam binding sites in rat peripheral tissues, the peripheral-type benzodiazepine receptor (PBR) has been increasingly studied to better understand nonneural effects of the benzodiazepines. The mammalian PBR is ubiquitously distributed with high concentrations in the outer mitochondrial membrane of secretory tissues. In regions of the brain, the density of PBR can equal or exceed the density of central-type benzodiazepine receptors. High affinity PK 11195 binding is diagnostic for the receptor while the affinity for benzodiazepines is species dependent. Recent cDNA cloning of a PBR component, the isoquinoline binding protein (IBP), shows no apparent sequence homology with any GABAA receptor subunits known to comprise central benzodiazepine receptor subtypes. The PBR seems at best only distantly related to CBRs. Recent advances in the pharmacology, biochemistry and molecular biology of the PBR are reviewed.

The influence of cell culture and storage conditions on HIV-1 infectivity and fusogenic activity.

We have previously demonstrated that acidic medium inhibits the replication of HIV-1. The present study was designed to examine the effects of other growth conditions and infection of fibroblasts by coculture with HIV infected lymphoid cells. Several lymphoblastoid cell lines normally grown in RPMI-1640 were grown in Eagle's MEM. These cells supported virus replication to higher titres than did RPMI-1640. Peak viral titres were achieved within 24-48 h after newly infected or chronically infected cells were placed in fresh medium. When virus was stored in liquid medium either frozen or at higher temperatures, virus titres were retained for several months while frozen but decreased upon storage at 4 degrees C or higher. If cells were passaged after trypsinization in Ca(++)-depleted medium, then a decreased susceptibility of cells for HIV-1 by 2 log10 at 24 h post infection was observed. Infectivity of cell-free and cell-associated HIV-1 was measured using syncytium formation, reverse transcriptase activity and p24 antigen. No fusion between HIV-1 infected CD4+ lymphoblasts and CD4- fibroblasts was observed but HIV-1 infected lymphoid cells, even in the absence of syncytium formation, exerted a strong toxic effect on fibroblasts. This study extends previous findings that medium acidity was inhibitory to virus replication and survival. Thus, conditions for study of HIV must be well controlled in buffered medium so that misleading results are not obtained regarding virus multiplication and possibly regarding transmission to and pathogenesis in CD4- cells.

Prolactin-provoked alterations of cytosolic, membrane, and nuclear protein kinase C following partial hepatectomy.

The adenohypophyseal polypeptide hormone prolactin is a potent liver mitogen, stimulating cell cycle progression, an effect that appears coupled to increasing protein kinase C activity in membrane and nuclear fractions. Here, we examine whether hepatocyte proliferation, stimulated by partial hepatectomy, is associated with altered serum prolactin or protein kinase C activation. Within 5-15 min of liver resection, serum prolactin concentrations elevate significantly. Protein kinase C activity in hepatic cytosol decreases significantly, and membrane and nuclear PKC activity increase by 30 min. Hypophysectomy prior to partial hepatectomy abrogates any effect of liver resection on protein kinase C activation in the hepatic remnant. Based upon these data, it is suggested that the rapid increase in serum prolactin seen after partial hepatectomy may be linked to protein kinase C activation, which in turn stimulates the hepatic proliferative response that is essential for hepatic regeneration.

Cloning and expression of a pharmacologically unique bovine peripheral-type benzodiazepine receptor isoquinoline binding protein.

High affinity binding of isoquinolines, such as PK 11195, is a conserved feature of peripheral-type benzodiazepine receptors (PBR) across species. However, species differences in PBR ligand binding have been described based on the affinity for N1-alkyl-1,4-benzodiazepines, such as Ro5-4864. Ro5-4864 binds with high affinity to the rat receptor but has low affinity for the bovine PBR. Photolabeling with an isoquinoline ligand, [3H]PK 14105, identifies a 17-kDa protein, the PBR isoquinoline binding protein (PBR/IBP), in both species. To further elucidate the role of the PBR/IBP in determining PBR benzodiazepine and isoquinoline binding characteristics, the bovine PBR/IBP was cloned and expressed. Using a cDNA encoding a rat PBR/IBP to screen a fetal bovine adrenal cDNA library, a bovine cDNA encoding a polypeptide of 169 residues was cloned. The bovine and rat PBR/IBPs had similar hydropathy profiles exhibiting five potential transmembrane domains. Transfecting the cloned bovine PBR/IBP cDNA into COS-7 cells resulted in an 11-fold increase in the density of high affinity [3H]PK 11195 binding sites which had only low affinity for Ro5-4864. Expression of the bovine PBR/IBP yields a receptor which is pharmacologically distinct from both endogenous COS-7 PBR and the rat PBR based on the affinity for several N1-alkyl-1,4-benzodiazepine ligands. These results suggest the PBR/IBP is the minimal functional component required for PBR ligand binding characteristics and the different protein sequences account for the species differences in PBR benzodiazepine ligand binding.

Identification and characterization of a prolactin-like polypeptide synthesized by mitogen-stimulated murine lymphocytes.

Previously, we have reported that concanavalin A (Con A)-stimulated murine splenocytes synthesize and secrete into the medium a substance with prolactin (PRL)-like properties. Western blot analysis of the culture medium of Con A-stimulated murine splenocytes identified a PRL-like polypeptide (Ly-PLP) with an apparent molecular weight (Mr) of 46 kd. Rabbit anti-rat PRL antibody (S-9, NIDDK) was used for immunostaining. Specificity was proved by the absence of a band in properly preabsorbed primary and secondary antibodies. Electroeluted Ly-PLP enhanced the mitogenic response of lymphocytes to Con A. In situ hybridization analysis of dispersed lymphocyte smears demonstrated the presence of an mRNA that hybridized with a rat PRL cDNA probe. The size of the mRNA species was 1.4 kb on Northern blot analysis. Two-dimensional peptide map analysis of pituitary PRL and Ly-PLP showed three peptides with identical migration characteristics. Western blot analysis of lymphocyte culture medium following Con-A-affinity column treatment provided evidence that the Ly-PLP was a non-glycoprotein. Therefore, we conclude that Ly-PLP represents a structural variant of pituitary-PRL (Pit-PRL), and provide evidence to strongly suggest that it is a novel lymphokine.

The bovine peripheral-type benzodiazepine receptor: a receptor with low affinity for benzodiazepines.

The density of bovine peripheral-type benzodiazepine receptors (PBR) in four tissues was highest in adrenal cortex. The adrenal cortex PBR cofractionated with a mitochondrial membrane marker enzyme and could be solubilized with intact ligand binding properties using digitonin. The membrane bound and soluble mitochondrial receptors were pharmacologically characterized and showed the rank order of potency to inhibit [3H]PK 11195 binding was PK 11195 greater than protoporphyrin IX greater than benzodiazepines (clonazepam, diazepam, or Ro5-4864). [3H]PK 11195 binding to bovine adrenal mitochondria was unaffected by diethylpyrocarbonate, a histidine residue modifying reagent that decreased binding to rat liver mitochondria by 70%. [3H]PK 14105 photolabeled the bovine PBR and the Mr was estimated under nondenaturing (200 kDa) and denaturing (17 kDa) conditions. These results demonstrate the bovine peripheral-type benzodiazepine receptor is pharmacologically and biochemically distinct from the rat receptor, but the receptor component photolabeled by an isoquinoline ligand has a similar molecular weight.

Photochemical derivatization of agarose: synthesis of an affinity agarose using a photoaffinity ligand specific for the peripheral-type benzodiazepine receptor.

PK 14105, a photoaffinity ligand specific for the peripheral-type benzodiazepine receptor (PBZR), was photochemically coupled to omega-aminobutyl agarose (ABAg) to yield PK 14105 agarose (PKAg). 19F and 1H NMR spectroscopy were consistent with the proposed site of coupling at the 2'-fluorine of PK 14105 by the primary amine moiety of ABAg. Quantitation of the affinity gel using two different colorimetric assays for primary amines suggests approximately 50% of the available primary amine groups of ABAg were bound by PK 14105. The estimated concentration of PK 14105 bound to ABAg was 2.3 mumols/ml of settled gel (2.3 mM effective ligand concentration). PKAg specifically binds the bovine PBZR solubilized by digitonin. The affinity of PKAg for the soluble PBZR was estimated by varying the concentration of PKAg. PBZR binding to PKAg was saturable and the apparent affinity of PKAg for the bovine receptor was estimated from the saturation data. A PKAg affinity column bound 85% of the solubilized PBZR from rat adrenals partially purified by anion exchange chromatography. These results indicate PKAg is a receptor-specific affinity media which may be useful in the purification of the native PBZR from various species.

Studies on vaccination against papillomaviruses: the immunity after infection and vaccination with bovine papillomaviruses of different types.

Calves, free of antibodies to bovine papillomaviruses (BPV), were reared in isolation. One was infected with BPV-2, developed tumours and was resistant to homologous reinfection. Groups of calves were infected with BPV-2, BPV-5 or BPV-6; they all developed and subsequently rejected type-specific tumours. They were then infected with BPV-4; they were not immune and oral papillomas were induced. Groups of animals were vaccinated by intramuscular preparations of purified BPV-4 and BPV-6 and were challenged with homologous virus; all were immune to reinfection. An earlier experiment had shown this to be true for BPV-2. Two calves, immune to BPV-6, were not immune to BPV-1. These experiments, although they do not cover all the possibilities of reciprocal immunisation and challenge, indicate that prophylactic immunity to a range of papillomaviruses is type-specific. This is the first clear demonstration of this phenomenon in the papillomavirus group.

Studies on vaccination against papillomaviruses: a comparison of purified virus, tumour extract and transformed cells in prophylactic vaccination.

Calves were vaccinated with two preparations made from one cutaneous fibropapilloma induced by bovine papillomavirus type 2 (BPV-2). One vaccine consisted of homogenised tumour; the other contained purified virus only. Both produced resistance to a heavy challenge infection of BPV-2. One calf in the vaccinated group developed a small tumour and rejected it earlier than the control calves. It would appear likely that the prophylactic immune response was induced by viral structural proteins only and that tumour-specific antigens are unnecessary. Bovine fibroblasts were transformed in vitro by BPV-2 and administered as a vaccine; immunity was not induced.

Prolactin and known modulators of rat splenocytes activate nuclear protein kinase C.

Prolactin (PRL) and other trophic factors rapidly activate a nuclear pool(s) of protein kinase C (nPKC) in purified splenocyte nuclei. The PRL also enhanced [2-3H]glycerol incorporation into nuclear mono- and triacylglycerol. An assay was devised which not only probed the ability of the hormone to activate protein kinase C (PKC) but also demonstrated the presence of nuclear substrates. Using this methodology, a biphasic concentration-response curve to PRL was observed. Heterologous species of PRL and various growth factors also activated nPKC. The PRL-induced nPKC stimulation was antagonized by various immunomodulators, G protein-coupling inhibitors, PKC inhibitors, a calmodulin inhibitor, and a peripheral benzodiazepine agonist and antagonist. A monoclonal antibody to PKC, anti-rat PRL antiserum and a monoclonal anti-rat PRL receptor antibody antagonized PRL-induced PKC-dependent nuclear phosphorylation, further implicating nPKC and a PRL receptor-mediated activation process. Nuclear PKC may be a major target for trophic regulation in response to both positive and negative growth signals.

Prolactin-stimulated mitogenesis in the Nb2 rat lymphoma cell: lack of protoporphyrin IX effects.

Pharmacological characterization of the Nb2 cell peripheral-type benzodiazepine receptor (PBR) was determined using selected 1,4-benzodiazepines, PK 11195, and protoporphyrin IX (PPIX) to compete for specific [3H] Ro5-4864 binding. These data suggest that PPIX possesses an affinity for the Nb2 cell PBR (Ki = 142 nM). We have previously reported that the peripheral benzodiazepine ligands, Ro5-4864 and PK 11195, modulate prolactin-stimulated mitogenesis in the Nb2 cell(1). In contrast, PPIX, a putative endogenous ligand for the PBR had no effect on prolactin-stimulated mitogenesis in the Nb2 cell over the concentration range from 10(-15) M to 10(-6) M. Taken together these data show that PPIX has an affinity for the Nb2 cell PBR but does not modulate prolactin-stimulated mitogenesis at concentrations which should bind to the Nb2 cell PBR.

Peripheral benzodiazepine binding sites in Nb 2 node lymphoma cells: effects on prolactin-stimulated proliferation and ornithine decarboxylase activity.

[3H]Ro 5-4864 binds to Nb 2 node lymphoma cells in a specific saturable and reversible fashion. Scatchard analysis of specific binding data reveals a single, homogeneous class of whole cell binding sites with a Kd of 3.94 +/- 0.22 nM and a Bmax value of 155 +/- 11 fmol (Ro 5-4864 bound)/2 x 10(6) cells. Ro 5-4864, a reported peripheral benzodiazepine receptor agonist both inhibits (10(-6) M) and potentiates (10(-9) M) the mitogenic action of prolactin on the Nb 2 node lymphoma cells. Interestingly, PK 11195, an antagonist, potentiates (10(-9) M) the mitogenic activity of prolactin in these cells. The actions of both Ro 5-4864 and PK 11195 seem to be mediated through a common receptor type since a 10(-6) M concentration of either agent will block the others potentiating action. Furthermore, the simultaneous addition of a 10(-9) M concentration of Ro 5-4864 and PK 11195 does not further increase the effect on prolactin stimulated mitogenesis. Clonazepam, a central benzodiazepine receptor agonist has no effect on prolactin-stimulated mitogenesis in this system. These data suggest that the Nb 2 node lymphoma cells possess a peripheral-type benzodiazepine receptor. In these cells, this receptor seems to serve the function of modulating the ability of the growth factor, prolactin to initiate the mitogenic process. These studies also suggest that Ro 5-4864 is functioning as a partial agonist rather than a 'pure' agonist for the peripheral benzodiazepine receptor in this system.

Solubilization and characterization of the liver peripheral-type benzodiazepine receptor.

The rat liver membrane-bound and digitonin-solubilized peripheral-type benzodiazepine receptors (mPBZR and dsPBZR, respectively) were characterized. Forty percent of the receptors were solubilized from a liver homogenate with 0.25% digitonin. Scatchard analysis of saturation data for the mPBZR and the dsPBZR showed Kd = 1.5 nM and maximum number of binding sites = 3.12 pmol/mg of protein and Kd = 9.2 nM and maximum number of binding sites = 1.10 pmol/mg of protein, respectively. Estimates of Kd calculated from kinetic data agree with estimates from Scatchard analysis. The affinity of the PBZR for [3H]Ro5-4864 was not affected by guanosine 5'0-(3-thiotriphosphate) which suggests the receptor is not coupled to a G-protein. Competition for specific [3H]Ro5-4864 binding by various ligands demonstrated the same rank order potency of binding inhibition for the membrane bound and solubilized receptors (PK-11195 greater than or equal to Ro5-4864 greater than diazepam greater than clonazepam). Thus, the soluble receptor had ligand binding characteristics similar to those of the membrane PBZR. [3H]PK-14105 was used to photoaffinity label the PBZR in a rat liver homogenate. Labeling was specific for the PBZR and the molecular weight of the digitonin-solubilized photoaffinity-labeled receptor was estimated to be 170 kDa by gel filtration chromatography. Estimation of the molecular weight of the [3H]PK-14105 labeled receptor by sodium dodecyl sulfate polyacrylamide gel electrophoresis demonstrated a single protein corresponding to 19 kDa.

The genetically epilepsy-prone rat. A valuable model for the study of the epilepsies.

In order to develop a rational clinical treatment for any pathological state, the molecular bases for that state must be understood. As simple and logical as that statement appears, it remains the major obstacle to effective treatment of the family of neurological disorders collectively called the epilepsies. Under the term, the epilepsies are grouped as several types of seizure processes that undoubtedly have multiple pathophysiological causes. Thus, the search to elucidate the molecular bases for the epilepsies has as one of its fundamental components the careful selection of an appropriate model system. The search for an "ideal" seizure model has essentially followed two paths. In the first, animals are rendered "epileptic" by artificial methods and then the pathophysiological, electrophysiological, and pharmacological changes are evaluated. In the second, animals are developed with a genetic predisposition to seizures and used to evaluate the molecular bases for the seizure-prone state. Work using both types of models have provided valuable information about the epileptic state. This review describes an epilepsy model developed using the second approach, namely, the Genetically Epilepsy-Prone Rat (GEPR). These animals represent a valuable model for the study of the inborn neurological defect that predisposes these animals to seizures. A brief description of the work done in several laboratories characterizing the model is presented. Finally, the value of the GEPR as a model for studying the pathophysiology of the epilepsies will be described.

Enhancement of prolactin (PRL)-stimulated mitogenesis of Nb2 rat lymphoma cell cultures by insulin-like growth factor I (IGF-I).

IGF-I stimulated the mitogenesis of Nb2 cells in the presence of suboptimal mitogenic concentrations of prolactin (PRL, 0.01 or 0.1 ng/ml). In the presence of 1 ng/ml or 10 ng/ml, concentrations of PRL that produced a maximal or near maximal mitogenic response in Nb2 cells, the addition of insulin-like growth factor-I (IGF-I) at 5 or 10 ng/ml did not further enhance mitogenesis. This effect was selective for IGF-I since IGF-II, epidermal growth factor (EGF), insulin, transforming growth factor-beta (TGF-beta) or platelet-derived growth factor (PDGF) did not stimulate mitogenesis in the presence or absence of PRL. That the ability of IGF-I to stimulate mitogenesis of these cells required PRL was suggested by the ability of PRL antiserum to block the IGF-I effect. Monoclonal antibody to IGF-I reduced the mitogenic response to one identical to PRL alone. In the presence of a suboptimal mitogenic concentration of PRL, IGF-I was an equally effective comitogen when added at 0 time or at 6 h after PRL stimulation, suggestive of an effect of IGF-I in late G1 phase of the cell cycle. Effects of IGF-I on ornithine decarboxylase, a G1 enzymatic marker, were compatible with this interpretation. In order to be assured that IGF-I exerted its action through a receptor-mediated process, we evaluated the presence of IGF-I receptors on Nb2 cells. Receptors were present which bound IGF-I greater than IGF-II much greater than insulin. The IC50 was 35 nM for IGF-I, 280 nM for IGF-II and 875 nM for insulin.(ABSTRACT TRUNCATED AT 250 WORDS)