Governance in the Face of Extreme Events: Lessons from Evolutionary Processes for Structuring Interventions,and the Need to Go Beyond

Ecosystems - The increasing frequency of extreme events, exogenous and endogenous, poses challenges for our societies. The current pandemic is a case in point; but "once-in-a-century"...     

Human Genetic Ancestral Composition Correlates with the Origin of Mycobacterium leprae Strains in a Leprosy Endemic Population

Recent reports have suggested that leprosy originated in Africa, extended to Asia and Europe, and arrived in the Americas during European colonization and the African slave trade. Due to colonization, the contemporary Colombian population is an admixture of Native-American, European and African ancestries. Because microorganisms are known to accompany humans during migrations, patterns of human migration can be traced by examining genomic changes in associated microbes. The current study analyzed 118 leprosy cases and 116 unrelated controls from two Colombian regions endemic for leprosy (Atlantic and Andean) in order to determine possible associations of leprosy with patient ancestral background (determined using 36 ancestry informative markers), Mycobacterium leprae genotype and/or patient geographical origin. We found significant differences between ancestral genetic composition. European components were predominant in Andean populations. In contrast, African components were higher in the Atlantic region. M. leprae genotypes were then analyzed for cluster associations and compared with the ancestral composition of leprosy patients. Two M. leprae principal clusters were found: haplotypes C54 and T45. Haplotype C54 associated with African origin and was more frequent in patients from the Atlantic region with a high African component. In contrast, haplotype T45 associated with European origin and was more frequent in Andean patients with a higher European component. These results suggest that the human and M. leprae genomes have co-existed since the African and European origins of the disease, with leprosy ultimately arriving in Colombia during colonization. Distinct M. leprae strains followed European and African settlement in the country and can be detected in contemporary Colombian populations.     

Cambinol,a Novel Inhibitor of Neutral Sphingomyelinase 2 Shows Neuroprotective Properties

Ceramide is a bioactive lipid that plays an important role in stress responses leading to apoptosis, cell growth arrest and differentiation. Ceramide production is due in part to sphingomyelin hydrolysis by sphingomyelinases. In brain, neutral sphingomyelinase 2 (nSMase2) is expressed in neurons and increases in its activity and expression have been associated with pro-inflammatory conditions observed in Alzheimer’s disease, multiple sclerosis and human immunodeficiency virus (HIV-1) patients. Increased nSMase2 activity translates into higher ceramide levels and neuronal cell death, which can be prevented by chemical or genetic inhibition of nSMase2 activity or expression. However, to date, there are no soluble, specific and potent small molecule inhibitor tool compounds for in vivo studies or as a starting point for medicinal chemistry optimization. Moreover, the majority of the known inhibitors were identified using bacterial, bovine or rat nSMase2. In an attempt to identify new inhibitor scaffolds, two activity assays were optimized as screening platform using the recombinant human enzyme. First, active hits were identified using a fluorescence-based high throughput compatible assay. Then, hits were confirmed using a ¹⁴C sphingomyelin-based direct activity assay. Pharmacologically active compounds and approved drugs were screened using this strategy which led to the identification of cambinol as a novel uncompetitive nSMase2 inhibitor (K_i = 7 μM). The inhibitory activity of cambinol for nSMase2 was approximately 10-fold more potent than for its previously known target, silence information regulator 1 and 2 (SIRT1/2). Cambinol decreased tumor necrosis factor-α or interleukin-1 β-induced increases of ceramide and cell death in primary neurons. A preliminary study of cambinol structure and activity allowed the identification of the main structural features required for nSMase2 inhibition. Cambinol and its analogs may be useful as nSMase2 inhibitor tool compounds to prevent ceramide-dependent neurodegeneration.     

TRPM4 Is a Novel Component of the Adhesome Required for Focal Adhesion Disassembly,Migration and Contractility

Cellular migration and contractility are fundamental processes that are regulated by a variety of concerted mechanisms such as cytoskeleton rearrangements, focal adhesion turnover, and Ca²⁺ oscillations. TRPM4 is a Ca²⁺-activated non-selective cationic channel (Ca²⁺-NSCC) that conducts monovalent but not divalent cations. Here, we used a mass spectrometry-based proteomics approach to identify putative TRPM4-associated proteins. Interestingly, the largest group of these proteins has actin cytoskeleton-related functions, and among these nine are specifically annotated as focal adhesion-related proteins. Consistent with these results, we found that TRPM4 localizes to focal adhesions in cells from different cellular lineages. We show that suppression of TRPM4 in MEFs impacts turnover of focal adhesions, serum-induced Ca²⁺ influx, focal adhesion kinase (FAK) and Rac activities, and results in reduced cellular spreading, migration and contractile behavior. Finally, we demonstrate that the inhibition of TRPM4 activity alters cellular contractility in vivo, affecting cutaneous wound healing. Together, these findings provide the first evidence, to our knowledge, for a TRP channel specifically localized to focal adhesions, where it performs a central role in modulating cellular migration and contractility.     

Scorpion Sheds ‘Tail’ to Escape: Consequences and Implications of Autotomy in Scorpions (Buthidae: Ananteris)

Autotomy, the voluntary shedding or detachment of a body part at a determined cleavage plane, is a common anti-predation defense mechanism in several animal taxa, including arthropods. Among arachnids, autotomy has been observed in harvestmen, mites, and spiders, always involving the loss of legs. Autotomy of the opisthosoma (abdomen) was recently reported in a single species of the Neotropical buthid scorpion genus Ananteris Thorell, 1891, but few details were revealed. Based on observations in the field and laboratory, examination of material in museum collections, and scanning electron microscopy, we document autotomy of the metasoma (the hind part of the opisthosoma, or ‘tail’) in fourteen species of Ananteris. Autotomy is more common in males than females, and has not been observed in juveniles. When the scorpion is held by the metasoma, it is voluntarily severed at the joints between metasomal segments I and II, II and III, or III and IV, allowing the scorpion to escape. After detachment, the severed metasoma moves (twitches) automatically, much like the severed tail of a lizard or the severed leg of a spider, and reacts to contact, even attempting to sting. The severed surface heals rapidly, scar tissue forming in five days. The lost metasomal segments and telson cannot be regenerated. Autotomy of the metasoma and telson results in permanent loss of the posterior part of the scorpion’s digestive system (the anus is situated posteriorly on metasomal segment V) and the ability to inject venom by stinging. After autotomy, scorpions do not defecate and can only capture small prey items. However, males can survive and mate successfully for up to eight months in the laboratory. In spite of diminished predation ability after autotomy, survival allows males to reproduce. Autotomy in Ananteris therefore appears to be an effective, adaptive, anti-predation escape mechanism.     

Involvement of serum vascular endothelial growth factor family members in the development of obesity in mice and humans

Adipose tissue is highly vascularized implying that angiogenesis takes place in its expansion. The aim of this study was to compare the concentrations of members of the vascular endothelial growth factor (VEGF) family in obesity. Serum concentrations of VEGFs were analyzed in 15 lean (BMI 20.3±2.5 kg/m²) and 24 obese (BMI 47.6±5.9 kg/m²) volunteers. Obese patients showed significantly increased circulating VEGF-A (150±104 vs. 296±160 pg/ml; P<.05), VEGF-B (2788±1038 vs. 4609±2202 arbitrary units; P<.05) and VEGF-C (13 453±5750 vs. 17 635±5117 pg/ml; P<.05) concentrations. Interestingly, levels of VEGF-D were reduced in obese individuals (538±301 vs. 270±122 pg/ml; P<.01). In addition, VEGF-A significantly decreased after weight loss following Roux-en-Y gastric bypass (BMI from 46.0±8.0 to 28.9±4.2 kg/m² P<.0001 vs. initial) from 345±229 to 290±216 pg/ml (P<.01). Moreover, in order to corroborate the human findings VEGF-A levels were analyzed during the expansion of adipose tissue in two dynamic models of murine obesity. Serum VEGF-A was significantly increased after 12 weeks on a high-fat diet (43.3±9.0 vs. 29.7±9.1 pg/ml; P<.01) or in ob/ob mice (52.2±18.0 vs. 29.2±7.7 pg/ml; P<.01) and was normalized after leptin replacement in the latter (32.4±14.0 pg/ml; P<.01 vs. untreated ob/ob). Our data indicates the involvement of these factors in the expansion of adipose tissue that takes place in obesity in relation to the need for increased vascularization, suggesting that manipulation of the VEGF system may represent a potential target for the pharmacological treatment of obesity.     

Hamsters as a Model of Severe Acute Respiratory Syndrome Coronavirus-2

Severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2), the cause of coronavirus disease 2019 (COVID-19), rapidly spread across the world in late 2019, leading to a pandemic. While SARS-CoV-2 infections predominately affect the respiratory system, severe infections can lead to renal and cardiac injury and even death. Due to its highly transmissible nature and severe health implications, animal models of SARS-CoV-2 are critical to developing novel therapeutics and preventatives. Syrian hamsters (Mesocricetus auratus) are an ideal animal model of SARS-CoV-2 infections because they recapitulate many aspects of human infections. After inoculation with SARS-CoV-2, hamsters become moribund, lose weight, and show varying degrees of respiratory disease, lethargy, and ruffled fur. Histopathologically, their pulmonary lesions are consistent with human infections including interstitial to broncho-interstitial pneumonia, alveolar hemorrhage and edema, and granulocyte infiltration. Similar to humans, the duration of clinical signs and pulmonary pathology are short lived with rapid recovery by 14 d after infection. Immunocompromised hamsters develop more severe infections and mortality. Preclinical studies in hamsters have shown efficacy of therapeutics, including convalescent serum treatment, and preventatives, including vaccination, in limiting or preventing clinical disease. Although hamster studies have contributed greatly to our understanding of the pathogenesis and progression of disease after SARS-CoV-2 infection, additional studies are required to better characterize the effects of age, sex, and virus variants on clinical outcomes in hamsters. This review aims to describe key findings from studies of hamsters infected with SARS-CoV-2 and to highlight areas that need further investigation.

Coronavirus disease 2019 (COVID-19) is caused by severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2), a novel betacoronavirus that was first detected in Wuhan, China at the end of 2019.³¹ Coronavirus infections predominantly present with either respiratory or gastrointestinal manifestations, depending on the strain and host. While many coronavirus infections result in mild clinical symptoms, SARS-CoV-2 is highly pathogenic and poses significant health concerns.^31,58,78 Although initial clinical signs are attributed to the respiratory system, severe infections result in systemic complications, such as acute cardiac and renal injury, secondary infections, and shock.^31,58SARS-CoV-2 relies on a structural surface spike glycoprotein to establish infection. The spike protein binds to the angiotensin-converting enzyme 2 (ACE2) receptor on host cells to gain entry in a receptor-mediated fashion. This interaction facilitates both human-to-human transmission and cross-species infection.⁷⁷ Species tropism is determined by the presence of ACE2 residues that recognize the SARS-CoV-2 spike protein. Animals permissive for SARS-CoV-2 infection include cats, ferrets, pigs, nonhuman primates, select genetically modified mice, and hamsters.^5,7,23,37,67 Susceptible species can be both intermediate hosts and sources of infection of SARS-CoV-2 for humans.⁷⁷ Rodents, such as mice and hamsters, are ideal models for the study of COVID-19 due to their small size, ready availability, low cost of care, SPF status, and in-depth characterization across a variety of translational models, including past and present betacoronavirus infections.^60,61 Although transgenic mice expressing human ACE2 are susceptible to SARS-CoV-2 infection, Syrian hamsters (Mesocricetus auratus) naturally express ACE2 residues that recognize the SARS-CoV-2 spike protein.^5,46,84 As such, Syrian hamsters are a valuable animal model for studying COVID-19.Syrian hamsters, commonly referred to as golden hamsters, belong to the family Cricetidae and have a natural geographic range of arid southeast Europe and Asia Minor. Additional members of the Cricetidae family used in biomedical research include Chinese hamsters (Cricetulus griseus), European hamsters (Cricetus cricetus), Armenian hamsters (Cricetulus migratorius), and dwarf hamsters (Phodopus species). Unless otherwise noted, any mention of hamsters in this overview refers to Syrian hamsters. Laboratory hamsters primarily originated from one Syrian litter captured in 1930. Progeny of this litter were first imported into the United States in 1938.⁵⁰ Outbred Syrian hamsters are widely available; recently developed transgenic hamsters are increasingly used in biomedical research and may provide unique insight into SARS-CoV-2 infections.^22,44 Syrian hamsters have a rich history in biomedical research and can be used to model cancer and infectious, metabolic, cardiovascular, and respiratory diseases.⁵⁰Hamsters play an important role in SARS-CoV-2 studies. This is due, in part, to their susceptibility to the first described highly pathogenic coronavirus infection in the 21st century, severe acute respiratory syndrome (SARS-CoV). SARS-CoV emerged in late 2002 in Southern China. Although individuals in more than 20 countries contracted SARS-CoV, the spread was quickly contained, with the last reported case in July 2003.^16,40 After experimental infection with SARS-CoV, hamsters developed high viral loads in the lungs and nasal turbinates.^{15,32,56,62,69} Pulmonary pathology included inflammation, cell necrosis, and consolidation without clinical signs of disease.⁶¹ Based on their susceptibility to SARS-CoV and natural expression of ACE2 capable of recognizing the SARS-CoV-2 spike protein, hamsters have been a preferred model of SARS-CoV-2. Hamster studies have replicated key aspects of SARS-CoV-2 infections in humans, including viral replication, transmission, and pathology. Furthermore, hamsters are a model organism for developing and testing novel preventions and therapeutics. However, using hamsters in biomedical research has several key limitations, including the lack of reagents, especially antibodies, suitable for use with hamster tissue and the relatively few established transgenic hamsters compared to mice. The purpose of this review is to describe key findings of hamster models of SARS-CoV-2 and to highlight gaps in our current understanding that will require further investigation.     

CARDIOGENIC ACUTE RENAL FAILURE (CARF) FOLLOWING OPEN-HEART SURGERY

Although previous reports have attributed acute renal failure (ARF) following cardiovascular surgery to acute tubular necrosis (ATN), little emphasis has been placed on renal failure due to congestive heart failure (CARF). Of 100 cases of ARF studied prospectively over an 18-month period, 36 occurred after open-heart surgery. Nineteen of these cases were associated with heart failure. The remaining 17 had ATN as manifested by high urinary sodium, low urine/plasma creatinine, and abnormal urinary sediment. At the onset of CARF, intravascular volume expansion was universally present, and oliguria with pulmonary edema was common. Urinary chemistries were (mean +/- SD): sodium (mEq/L) 8 +/- 7, U/P creatinine 72 +/- 45, and FENa (%) 0.1 +/- 0.1. Therapy consisted of digoxin, furosemide (F), vasopressors (V), and, when indicated, intraaortic balloon counterpulsation. Survivors of CARF responded more frequently to F and required less V. Ultimately, survival depended upon improvement in cardiac performance. All oliguric ATN patients failed to respond to F. Mortality for the CARF group was 52%. In contrast, 82% of the oliguric ATN group expired, whereas overall ATN mortality was 60%. Cardiogenic acute renal failure is a frequent cause of ARF after open-heart surgery in our institution. It is characterized by prerenal urinary chemistries, has a high mortality, and may be reversible.     

Altruism and fairness: Unnatural selection?

Darwin admitted that the evolution of moral phenomena such as altruism and fairness, which are usually in opposition to the maximization of individual reproductive success, was not easily accounted for by natural selection. Later, authors have proposed additional mechanisms, including kin selection, inclusive fitness, and reciprocal altruism. In the present work, we explore the extent to which sexual selection has played a role in the appearance of human moral traits. It has been suggested that because certain moral virtues, including altruism and kindness, are sexually attractive, their evolution could have been shaped by the process of sexual selection. Our review suggests that although it is possible that sexual selection played such a role, it is difficult to determine the extent of its relevance, the specific form of this influence, and its interplay with other evolutionary mechanisms.     

Pyrrolizidine alkaloids of the endemic Mexican genus Pittocaulon and assignment of stereoisomeric 1,2-saturated necine bases

The endemic Mexican genus Pittocaulon (subtribe Tussilagininae, tribe Senecioneae, Asteraceae) belongs to a monophyletic group of genera distributed in Mexico and North America. The five Pittocaulon species represent shrubs with broom-like succulent branches. All species were found to contain pyrrolizidine alkaloids (PAs). With one exception (i.e., stems of Pittocaulon velatum are devoid of PAs) PAs were found in all plant organs with the highest levels (up to 0.3% of dry weight) in the flower heads. Three structural types of PAs were found: (1) macrocyclic otonecine esters, e.g. senkirkine and acetylpetasitenine; (2) macrocyclic retronecine esters, e.g. senecionine, only found in roots, and (3) monoesters of 1,2-saturated necines with angelic acid. For an unambiguous assignment of the different stereoisomeric 1,2-saturated necine bases a GC-MS method was established that allows the separation and identification of the four stereoisomers as their diacetyl or trimethylsilyl derivatives. All otonecine esters that generally do not form N-oxides and the 1,2-saturated PAs were exclusively found as free bases, while the 1,2-unsaturated 7-angeloylheliotridine occurring in P. velatum was found only as its N-oxide. In a comparative study the 1H and 13C NMR spectra of the four stereoisomeric necine bases were completely assigned by the use of DEPT-135, H,H-COSY, H,C-HSQC and H,H-NOESY experiments and by iterative analysis of the 1H NMR spectra. Based on these methods the PA monoesters occurring in Pittocaulon praecox and P. velatum were assigned as 7-O-angeloyl ester respectively 9-O-angeloyl ester of dihydroxyheliotridane which could be identified for the first time as naturally occurring necine base. Unexpectedly, in the monoesters isolated from the three other Pittocaulon species dihydroxyheliotridane is replaced by the necine base turneforcidine with opposite configuration at C-1 and C-7. The species-specific and organ-typical PA profiles of the five Pittocaulon species are discussed in a biogenetic context.