The role of the epidermal growth factor-1 and hydrophobic stack domains of human factor IX in binding to endothelial cells.

To determine the function and specificity in factor IX of the first epidermal growth factor (EGF)-like domain and the eight-amino acid hydrophobic stack encoded by exon C (residues 39-46), these domains were replaced by the corresponding polypeptide regions of factor X and chimeric proteins were produced in human embryo kidney cells. Both chimeras were activated by factor XIa at a rate similar to plasma factor IX and exhibited calcium-dependent fluorescence quenching similar to plasma factor IX. Both chimeras competed equally for binding to the endothelial cell receptor. Our findings make it unlikely that the first EGF-like domain or the hydrophobic stack of factor IX are responsible for the specific binding of factor IX to its endothelial cell receptor.     

Immortalization of hypothalamic GnRH neurons by genetically targeted tumorigenesis

By genetically targeting tumorigenesis to specific hypothalamic neurons in transgenic mice using the promoter region of the gonadotropin-releasing hormone (GnRH) gene to express the SV40 T-antigen oncogene, we have produced neuronal tumors and developed clonal, differentiated, neurosecretory cell lines. These cells extend neurites, express the endogenous mouse GnRH mRNA, release GnRH in response to depolarization, have regulatable fast Na+ channels found in neurons, and express neuronal, but not glial, cell markers. These immortalized cells will provide an invaluable model system for study of hypothalamic neurosecretory neurons that regulate reproduction. Significantly, their derivation demonstrates the feasibility of immortalizing differentiated neurons by targeting tumorigenesis in transgenic mice to specific neurons of the CNS.     

The Customer Isn't Always Right—Conservation and Animal Welfare Implications of the Increasing Demand for Wildlife Tourism

Tourism accounts for 9% of global GDP and comprises 1.1 billion tourist arrivals per annum. Visits to wildlife tourist attractions (WTAs) may account for 20–40% of global tourism, but no studies have audited the diversity of WTAs and their impacts on the conservation status and welfare of subject animals. We scored these impacts for 24 types of WTA, visited by 3.6–6 million tourists per year, and compared our scores to tourists’ feedback on TripAdvisor. Six WTA types (impacting 1,500–13,000 individual animals) had net positive conservation/welfare impacts, but 14 (120,000–340,000 individuals) had negative conservation impacts and 18 (230,000–550,000 individuals) had negative welfare impacts. Despite these figures only 7.8% of all tourist feedback on these WTAs was negative due to conservation/welfare concerns. We demonstrate that WTAs have substantial negative effects that are unrecognised by the majority of tourists, suggesting an urgent need for tourist education and regulation of WTAs worldwide.     

Inv(10)(p11.2q21.2), a variant chromosome

We present 33 families in which a pericentric inversion of chromosome 10 is segregating. In addition, we summarise the data on 32 families in which an apparently identical inv(10) has been reported in the literature. Ascertainment was through prenatal diagnosis or with a normal phenotype in 21/33 families. In the other 12 families, probands were ascertained through a wide variety of referral reasons but in all but one case (a stillbirth), studies of the family showed that the reason for referral was unrelated to the chromosome abnormality. There has been, to our knowledge, no recorded instance of a recombinant chromosome 10 arising from this inversion and no excess of infertility or spontaneous abortion among carriers of either sex. We propose that inv(10)(p11.2q21.2) can be regarded as a variant analogous to the pericentric inversion of chromosome 2(p11q13). We conclude that prenatal chromosome analysis is not justified for inv(10) carriers. In addition, family investigation of carrier status is not warranted in view of the unnecessary concern this may cause parents and other family members. Received: 7 July 1997 / Accepted: 4 August 1997     

A DEVD-Inhibited Caspase Other than CPP32 Is Involved in the Commitment of Cerebellar Granule Neurons to Apoptosis Induced by K+ Deprivation

Abstract: Cultured cerebellar granule neurons undergo apoptosis when switched from a medium containing depolarizing levels of K⁺ (25 mM KCI) to medium containing lower levels of K⁺ (5 mM KCI). We used this paradigm to investigate the role of caspases in the death process. Two broad-spectrum caspase inhibitors, tert-butoxycarbonyl-Asp·(O-methyl)·fluoromethyl ketone and benzyloxycarbonyl-Val-Ala-Asp·fluoromethyl ketone, significantly reduced cell death (90 and 60%, respectively) at relatively low concentrations (10–25 µM), suggesting that caspase activation is involved in the apoptotic process. DNA fragmentation, a hallmark of apoptosis, was also reduced by these caspase inhibitors, suggesting that caspase activation occurred upstream of DNA cleavage in the sequence of events leading to cell death. As a step toward identifying the caspase(s) involved, the effects of N-acetyl Tyr-Val-Ala-Asp·chloromethyl ketone (YVAD·cmk), an interleukin-1β converting enzyme-preferring inhibitor, and N-acetyl Asp-Glu-Val-Asp·fluoromethyl ketone (DEVD·fmk), a CPP32-preferring inhibitor, were also evaluated. YVAD·cmk provided only modest (<20%) protection and only at the highest concentration (100 µM) tested, suggesting that interleukin-1β converting enzyme and/or closely related caspases were not involved. In comparison, DEVD·fmk inhibited cell death by up to 50%. Western blot analyses, however, failed to detect an increase in processing/activation of CPP32 or in the proteolysis of a CPP32 substrate, poly(ADP-ribose) polymerase, during the induction of apoptosis in granule neurons. Similarly, the levels of Nedd2, a caspase that is highly expressed in the brain and that is partially inhibited by DEVD·fmk, also remained unaffected in apoptotic neurons undergoing apoptosis. These results suggest that a DEVD-sensitive caspase other than CPP32 or Nedd2 mediates the induction of apoptosis in K⁺-deprived granule neurons.     

Effect of magnesium on the growth and cell cycle of transformed and non-transformed epithelial rat liver cells in vitro

The effects of magnesium (Mg) restriction on cell growth and the cell cycle were determined in transformed (TRL-8) and non-transformed (TRL-12-15) epithelial-like rat liver cells. Cells were cultured in RPMI 1640 medium in which the Mg concentration was reduced to 0.5, 0.1, and 0 × the concentration in the regular RPMI 1640 media (100mg/l). Cell growth in the transformed cells was not influenced by the Mg restriction as greatly as in the non-transformed cell line. Transit through the cell cycle also exhibited an independence of the Mg in the medium in the transformed cells. When transformed cells were grown for two generations in Mg-limited medium, the growth rate slowed to a rate similar to that demonstrated by the non-transformed cells. Analysis by flow cytometry showed that transit through the cell cycle was minimally slowed in Mg deficient transformed cells; however, transit through the G₁ and S phases in the non-transformed cells was slowed. The TRL-8 cells in Mg-limited medium resulted in fewer nuclei in G₁ with subsequent increases in the percentages of S-phase nuclei. The TRL 12-15 cells reacted oppositely with the number of G₁ nuclei increased and the number of S-phase nuclei decreased. In respect to growth, these results show that epithelial cells respond in a similar manner to Mg-limitation as do fibroblast cells. The transformed cells exhibited a level of independence from Mg in respect to growth, reproduction, and cell-cycle kinetics.