Human immunodeficiency virus type 1 envelope glycoprotein molecules containing membrane fusion-impairing mutations in the V3 region efficiently undergo soluble CD4-stimulated gp120 release.

The ability of soluble forms of CD4 to induce gp120 release from the human immunodeficiency virus type 1 envelope glycoprotein complex may reflect molecular events associated with membrane fusion. The third hypervariable (V3) region of gp120 appears to play a role in fusion independent of CD4 binding. We demonstrate herein that envelope glycoprotein molecules rendered fusion defective by mutations in conserved residues within the V3 region nevertheless undergo efficient soluble CD4-induced gp120 release.     

Poly-(ADP-ribose) polymerase partially contributes to target cell death triggered by cytolytic T lymphocytes.

We hypothesized that CTL-induced target cell (TC) death is partially due to processes that follow the DNA damage in target cells and include the activation of poly-ADP-ribose transferase (PADPRT) by DNA strand breaks. According to this model, the activated PADPRT is expected to deplete NAD, ATP, and to contribute to the TC death. We used inhibitors of PADPRT and a PADPRT-deficient cell mutant, as well as other nucleated TC and SRBC to test the role of PADPRT in CTL-induced cytotoxicity. It is found that inhibitors of PADPRT (3-aminobenzamide, benzamide (aromatic amides)) and nicotinamide all inhibit the CTL-mediated lysis of both Ag-specific TC and of Ag-nonbearing TC. The effect of PADPRT inhibitors was not due to inhibition of the lethal hit delivery by CTL, because in parallel control experiments, the same inhibitors did not interfere with CTL-induced lysis of SRBC, cells that are devoid of nuclei and PADPRT. Moreover, the effect of inhibitors of PADPRT did not affect earlier stages of lethal hit delivery because 3-aminobenzamide and benzamide did not interfere with CTL-induced DNA fragmentation in TC at concentration which protected TC lysis. Importantly, a PADPRT-deficient cell line was also much more resistant to CTL-induced lysis as tested in retargeting (4 and 8 h) assays; this was expected if activation of PADPRT is indeed involved in TC death. Control experiments reveal that the relative resistance of the PADPRT-deficient cell mutant to CTL-induced lysis was not related to its impaired ability to form conjugates and to trigger CTL (as tested in granule exocytosis assay). In addition, PADPRT-deficient cells were as susceptible to CTL-induced DNA fragmentation as were the control cells; yet, they were resistant to CTL-induced 51Cr-release. Control cells and PADPRT-deficient mutant were equally susceptible to antibody+C'-mediated lysis. Our data support the view that the activation of PADPRT can contribute to the CTL-induced cytolysis of some TC, but is not involved in lysis of other TC, as evidenced by the ability of CTL to efficiently lyse SRBC. These data suggest that there could be multiple molecular pathways of TC death in CTL-mediated cytotoxicity and the relative contribution of PADPRT and/or other enzymes will reflect the individual make-up of a particular TC.     

Cerebral energy metabolism in immature and mature guinea pig fetuses during acute asphyxia.

In immature fetuses circulatory centralization caused by acute asphyxia is less effective than that in mature fetuses (Jensen & Berger, 1991). This suggests that cerebral oxygenation may be poor in immature fetuses during asphyxia. On the other hand cerebral oxygen consumption is lower in immature than that in mature fetuses. To determine, whether or not there is an imbalance between oxygen supply and demand in one or the other group, we compared the time course of the changes of cerebral concentrations of both high-energy phosphates and glycolytic intermediates between immature and mature guinea pig fetuses during acute asphyxia caused by arrest of uterine blood flow. The fall in the cerebral concentrations of adenosine triphosphate and glucose, and the rise in those of adenosine monophosphate and lactate were slower in immature than in mature fetuses. There were no differences between the levels of cerebral adenosine diphosphate and creatine phosphate of the two groups. From these results we conclude that during acute asphyxia the imbalance between cerebral oxygen supply and demand is less marked in immature than in mature fetuses.     

Chloroplast movements in leaves: Influence on chlorophyll fluorescence and measurements of light-induced absorbance changes related to ΔpH and zeaxanthin formation

Light-induced chloroplast movements were found to cause changes in chlorophyll fluorescence emission, closely matching those in leaf absorptance, both in terms of the kinetics and the maximum extent of the changes observed in different species. The results demonstrate that chloroplast movements can have a significant effect on the efficiency of light utilization in photosynthesis. They further show that chloroplast movements need to be taken into account in measurements of fluorescence quenching and especially in measurements of light-induced optical changes used to monitor zeaxanthin formation and pH associated light scattering in leaves. Means of minimizing and of adjusting for the influences of chloroplast movements in such measurements are discussed.Abbreviations F fluorescence emission - PFD photon flux density - R reflectance - T transmittance - absorptance C.I.W.-D.P.B. Publication No. 1116.     

Chromosomal localization of two human zinc finger protein genes, ZNF24 (KOX17) and ZNF29 (KOX26), to 18q12 and 17p13-p12, respectively

Two members of the zinc finger Krüppel family, ZNF24 (KOX17) and ZNF29 (KOX26), have been localized by somatic cell hybrid analysis and in situ chromosomal hybridization to human chromosomes 18q12 and 17p13-p12, respectively. The mapping of ZNF29 together with the previously reported localization of ZFP3 suggests that a zinc finger gene complex is located on human chromosome 17p. ZNF29 maps centromeric to the human p53 tumor antigen gene (TP53). In the analogous murine position, the two mouse zinc finger genes Zfp2 and Zfp3 have recently been assigned to the distal region of mouse chromosome 11, the murine homolog of human chromosome 17. Both human zinc finger genes ZNF24 and ZNF29 are in chromosomal regions that have been noted to be deleted in neoplasms of the lung and of the central nervous system at chromosome 17p and in colorectal neoplasia at chromosomes 17p and 18q.     

Multiple supramolecular structures formed by interaction of actin with protamine

When protamine is added to actin, different supramolecular structures are formed depending on the molar ratio of the two proteins and of the ionic strength of the medium. At low ionic strength, and going from a molar ratio of protamine to G-actin of 4:1, 2:1 and 1:1, globular aggregates are first converted into extended structures and then to long threads in which the constituent ATP–G-actin is rapidly exchangeable with the actin of the medium. At high ionic strength {Tyrode [(1910) Arch. Int. Pharmacodyn. Ther. 20, 205–212] solution}, starting from G-actin and protamine in the 1:1 molar ratio, long ropes are formed that can be resolved into intertwining filaments of 4–5nm diameter. The addition of protamine in a 1:1 molar ratio to a solution of F-actin in Tyrode solution causes the breakage of the actin filaments, which is also revealed by the decrease of the viscosity of the solution and the formation of ordered latero-lateral aggregates. The structures formed by reaction of protamine with G-actin can be separated from free G-actin and protamine by filtration through 0.45μm-pore-size Millipore filters. This technique has been exploited to study the exchange reaction between free actin and the actin–protamine complexes. For these studies the 1:1 actin–protamine complex formed at low ionic strength and the 2:1 actin–protamine complex formed in the presence of 23nm-free Mg²⁺ have been selected. In the first case the exchange reaction is practically complete in the dead time of the experiment (20s). In the second case, where the complex operates like a true ATPase, the rate of the exchange is initially comparable with the rate of the ATP cleavage. Later on, however, the complex undergoes a change and the rate of the exchange between free actin and the actin bound to protamine becomes lower than the rate of the ATPase reaction. It is proposed that the ATP exchanges for ADP directly on the G-actin bound in the complex.     

The distribution and ultrastructure of sensory elements in the baroreceptor region of the truncus arteriosus of the lizard Trachydosaums rugosus

Summary The proximal truncus arteriosus of the lizard Trachydosaurus rugosus was studied with light-, fluorescence and electron-microscopical techniques. Three vessels comprised the truncus: the pulmonary, left aortic, and caroticoaortic arteries. Right and left truncal nerves, each derived from the ipsilateral vagus nerve, innervated the truncus, particularly its proximal 3 mm.Ultrastructurally, the nerves had a variety of appearances: some were clearly adrenergic, c-type or p-type. A number of profiles contained large numbers of mitochondria and were classified as sensory. Some profiles defied exact classification, having characteristics common to two different types of profile.Within the outer medial layers, profiles up to 7 m in diameter were found. These contained large numbers of mitochondria, myelin bodies and structures intermediate between the two. In addition, the profiles contained large amounts of glycogen and small numbers of vesicles. These nerve fibres were classified as baroreceptors, since they closely resemble carotid sinus and aortic arch baroreceptors in mammals.Large numbers of chromaffin cells were found, particularly in the common wall of the pulmonary and left aortic arteries. Many of these cells emitted a long tapering process, which sometimes entered a nearby nerve bundle. Sensory, p-type and c-type profiles, but not adrenergic profiles, made extensive close contacts with chromaffin cells.