Scanning the solutions for the sustainable supply of forest ecosystem services in Europe.

Forests are key components of European multifunctional landscapes and supply numerous forest ecosystem services (FES) fundamental to human well-being. The sustainable provision of FES has the potential to provide responses to major societal challenges, such as climate change, biodiversity loss, or rural development. To identify suitable strategies for the future sustenance of FES, we performed a solution scanning exercise with a group of transdisciplinary forest and FES experts from different European regions. We identified and prioritized fifteen major challenges hindering the balanced provision of multiple FES and identified a series of potential solutions to tackle each of them. The most prominent challenges referred to the increased frequency and impacts of extreme weather events and the normative mindset regarding forest management. The respective solutions pointed to the promotion of forest resilience via climate-smart forestry and mainstreaming FES-oriented management through a threefold strategy focusing on education, awareness raising, and networking. In a subsequent survey, most solutions were assessed as highly effective, transferable, monitorable, and with potential for being economically efficient. The implementation of the solutions could have synergistic effects when applying the notion of leverage points. Seven emerging pathways towards the sustainable supply of FES have been identified. These pathways build on each other and are organized based on their potential for transformation: (1) shifting forest management paradigms towards pluralistic ecosystem valuation; (2) using integrated landscape approaches; (3) increasing forest resilience; (4) coordinating actions between forest-related actors; (5) increasing participation in forest planning and management; (6) continuous, open, and transparent knowledge integration; and (7) using incentive-based instruments to support regulating and cultural FES. These pathways can contribute to the implementation of the new EU Forestry Strategy to support the balanced supply of multiple FES. Supplementary Information: The online version contains supplementary material available at 10.1007/s11625-022-01111-4.

Mutations of the human hepatic lipase gene in patients with combined hypertriglyceridemia/hyperalphalipoproteinemia and in patients with familial combined hyperlipidemia.

Hepatic lipase is an enzyme which hydrolyzes triglycerides from plasma lipoproteins and thus takes part in the metabolism of intermediate density lipoproteins and high-density lipoproteins. The search described here concentrated on mutations of the HL gene in 129 patients with combined hypertriglyceridemia/hyperalphalipoproteinemia and in 184 members of 19 families with familial combined hyperlipidemia. Controls were 100 subjects with favorable lipid values (age 46-51 years). Mutation screening and analysis were performed by temperature-gradient gel electrophoresis, allele-specific restriction genotyping, and sequencing. Six different missense mutations and four different silent mutations were found in the HL gene. The alleles Phe-267 and Gln-343 were detected only once in the patient group with hypertriglyceridemia and hyperalphalipoproteinemia and were not detected in the control group. The allele Met-383 was rare in both patients and controls. We found 9.3% of the patients and only 3.0% of controls to be carrying the Val-73-Met missense mutation. The allele Phe-334 was found in 5.43% of patients and in 2.0% of controls. The difference between the frequencies of these alleles was significant between male patients and male controls (Met-73 P=0.044; Phe-334 P=0.047). Also, the summarized odds ratio of 3.28 (95% confidence interval 1.23-8.73) demonstrates that mutation carriers are significantly more prevalent in the patients. Fifteen carriers of the Met-73 allele were found in six families of the familial combined hyperlipidemia group. Furthermore, six carriers of the Phe-334 allele were found in three families of the same group. In comparison to the controls the summarized odds ratio of 2.45 (95% confidence interval 0.89-6.71) barely missed the level of significance. The linkage between genotype and phenotype was incomplete. These results show an association of the missense mutations Val-73-Met and Leu-334-Phe as susceptibility alleles for combined forms of hyperlipidemia.

Hammerhead ribozyme cleavage of apolipoprotein B mRNA generates a truncated protein.

Target substrate-specific hammerhead ribozyme cleaves the specific mRNA and results in the inhibition of gene expression. In humans, overproduction of apolipoprotein B (apoB) is positively associated with premature coronary artery diseases. To modulate apoB gene expression, we designed hammerhead ribozymes targeted at AUA(6665) and GUA(6679) of apoB mRNA, designated RB16 and RB15, respectively, and investigated their effects on apoB mRNA in HepG2 cells. The results demonstrated that RB15 and RB16 ribozyme RNAs cleaved apoB RNA efficiently in vitro. Both ribozymes, RB15 and RB16, were used to construct recombinant adenoviral vectors, designated AvRB15 and AvRB16, respectively, for in vivo gene transfer. HepG2 cells were infected with 2 x 10(5) plaque-forming units of AvRB15 for 5, 10, 15, and 24 h. An RNase protection assay showed that the expression of the RB15 transcript was time-dependent; it increased approximately 300-fold from 5 to 24 h. Using reverse ligation-mediated polymerase chain reaction, the 3' cleavage product of apoB mRNA was detected, and the exact cleavage site of apoB mRNA was confirmed by sequencing. Importantly, the levels of apoB mRNA in HepG2 cells decreased approximately 80% after AvRB15 infection. Pulse/chase experiments on HepG2 cells treated with AvRB15 and AvRB16 demonstrated that ribozyme cleavage produced a truncated protein that was secreted at a density of 1. 063-1.210 g/ml. The cleavage activity of RB15 on apoB mRNA was more efficient than that of RB16. Moreover, pulse/chase experiments in HepG2 cells treated with AvRB15 revealed that most of the truncated apoB protein was degraded intracellularly. We conclude that hammerhead ribozyme targeted at GUA(6679) of apoB mRNA cleaves apoB mRNA, results in decreased apoB mRNA levels, and generates a truncated apoB of the expected size in vivo. Thus, the therapeutic application of ribozyme in regulating apoB production holds promise.