Male courtship displays and vocal communication in the polygynous bat Carollia perspicillata

Abstract Male courtship behaviour towards choosy females often comprises elaborate displays that address multiple sensory channels. In bats, detailed quantitative descriptions of multimodal courtship displays are still fairly scarce, despite the taxon's speciose nature. We studied male courtship behaviour in a polygynous Neotropical bat, Seba's short-tailed fruit bat Carollia perspicillata, by monitoring harem males in a captive colony. Courting male C. perspicillata performed stereotypic tactile, visual and acoustic displays. A courtship sequence, directed at one female at a time, lasted up to 120 s. During courtship, males approached females by brachiating or flying, hovered in front of them, pursued them on the wing, sniffed them and repeatedly poked the females with one or both folded wings; the latter behaviour was the most conspicuous male courtship display. Immediately before copulation, males wrapped their wings around the females and bit their necks. As acoustic display, courting male C. perspicillata produced highly variable, monosyllabic courtship trills. The species' vocal repertoire consisted of ten different social vocalisation types, three for benign interactions (courtship trills, wobbles, isolation calls), four for aggressive encounters (aggressive trills, down-sweeps, warbles, distress calls) and the remaining three for unknown behavioural contexts (V-shaped calls, flat down-sweeps, hooks). Courtship trills and aggressive trills were exclusively produced by males. We measured 245 courtship trills of five males and found statistical evidence for a strong individual signature which has the potential to facilitate female choice, mate recognition or neighbour-stranger recognition among male competitors

Human Platelet Lysates Successfully Replace Fetal Bovine Serum in Adipose-Derived Adult Stem Cell Culture

Fetal bovine serum (FBS) is still the gold standard as a cell culture medium additive due to its high level of growth stimulatory factors. Although supplementation of growth media with FBS is common practice in cell and tissue culture, FBS bears a number of disadvantages and its use has been questioned recently: (1) an ill-defined medium supplement, (2) qualitative and quantitative batch-to-batch variations, and (3) animal welfare concerns regarding the harvest of bovine fetal blood.Recently, we were able to show the capacity of human platelet α-granule lysates to replace FBS in a variety of human and animal cell culture systems. Thus, lysates of human donor platelets may become a valuable non animal-derived substitute for FBS in cultures of mammalian cells and in human and animal stem cell technology.Stem cells may become the future for human-based alternative to animal testing, in vitro toxicology, and drug safety assessment. New stem cell-based test systems are continuously established, and their performance under animal-derived component free culture conditions has to be defined in prevalidation and validation studies. In order to accomplish these tasks, adipose-derived mesenchymal stem cells (ADSC) were expanded in media supplemented with platelet lysates. Proliferation assays by resazurin and WST-8 compared with direct cell counting confirmed the growth promoting effect of platelet lysate, comparable to high FBS. Furthermore, we established culture conditions that ADSC kept their undifferentiated state as determined by CD73, CD90 and CD105 expression and the lack of negative marker CD45. Preliminary tests whether ADSC can be differentiated towards adipogenic, osteogenic, or chondrogenic phenotypes under platelet lysate supplemented growth conditions were also successful

Human Platelet Lysates Promote the Differentiation Potential of Adipose-Derived Adult Stem Cell Cultures

Adipose tissue from liposuction is a rich source for human mesenchymal stem cells. This type of adult stem cell is ethically acceptable, that paved the way for research on their potential use in regenerative medicine. However, any clinical application of adult stem cells is impeded by the use of FBS as an animal-derived growth supplement. In addition, stem cell cultures gained importance as innovative human-based alternative to animal testing, in vitro toxicology, drug testing and safety assessment. Thus, animal-derived component-free culture protocols are mandatory for a successful application of human stem cell-based testing systems under humanized conditions.Recently, we succeeded in using human platelet lysates (PL) as a serum alternative in the cell culture of a number of human and animal cell lines, and human mesenchymal stem cells. PL were prepared as cell-free extracts from activated donor thrombocytes.The minimal criteria defining multipotent mesenchymal cells are (1) the capacity to adhere to plastic, (2) the expression of specific surface antigens (e.g. CD73, CD90, CD105) for undifferentiated state, and (3) the potential of the cells to differentiate into the adipogenic, chondrogenic and osteogenic lineage. In the present study, adipose-derived stem cells (ADSC) were used as cell model. ADSC were maintained under PL or FBS and then switched to the respective media to induce mesodermal differentiation. Differentiation endpoints were assessed by phase-contrast microscopy and by histochemical staining: (1) lipid droplets in adipocytes were stained by Oil red O, (2) proteoglycans in chondrogenic spheroids were detected by toluidineblue, and fine structure of spheroids was monitored by scanning electron microscopy, and (3) calcium deposits in differentiated osteoblasts were stained with silver nitrate (von Kossa staining). Adipogenic differentiation was further confirmed by quantitative real-time PCR of selected marker genes (PREF1 vs. FABP4). There were no differences between FBS- and PL-grown ADSC, indicative for retention of the differentiation potential of ADSC under animal-derived component-free culture conditions in PL-supplemented culture media. The degree of adipogenic and osteogenic differentiation was even more pronounced under PL compared to FBS

A protocol for one-step differentiation of human induced pluripotent stem cells into mature podocytes

Within the glomerulus, podocytes are highly specialized visceral epithelial cells that are part of the glomerular filtration barrier. Human podocyte cell culture is rather challenging for primary or immortalized cells, due to the nonproliferative state of the cells. In addition, rapid dedifferentiation is often observed. Hence, iPSC-derived podocytes offer an exciting alternative to culture podocyte-like cells from different donors over prolonged time. Here we report a simple and rapid one-step protocol that drives iPSC into podocyte-like cells in 10 days

Dihemic c 4 -type cytochrome acting as a surrogate electron conduit: Artificially interconnecting a photosystem I supercomplex with electrodes

International audienceConnection of photosystem I (PSI) with electrodes has been shown to create artificial photosynthetic systems that hold promise for the synthesis of solar fuels. The high quantum yields of PSI require efficient electron transfer from the electrode to the reaction center of PSI in order to restock the light-induced holes, a task which in nature is performed by small redox proteins. Here, we have investigated the potential “wiring” properties of a dihemic c-type cytochrome (cyt c4), in order to efficiently connect PSI with electrodes. Cyt c4 has shown direct electron transfer (DET) with both hemes in electrical communication with two different electrode materials (ITO and Au) and on the basis of cyt c4-multilayer electrodes “self-exchange” properties can also be deduced. Investigation of cyt c4 in combination with PSI within an inverse opal ITO electrode has shown the dihemic protein to be a valuable molecular electron conduit, able to interconnect the photoenzymatic reaction with the 3D electrode. The properties have been compared with those of electrodes based on monohemic cyt c derived from horse heart

Polymorphism and deficiency of human factor H-related proteins p39 and p37

We described previously cDNA clones representing a novel factor H-related 1.4 kilobase mRNA. This mRNA species codes for a doublet of serum proteins of M(r) 39 000 and 37 000 (p39/p37). The respective recombinant proteins of the three clones H-69, pFH1.4a, and pFH1.4b differ in the expression of the epitope recognized by the monoclonal antibody (mAb) 3D11. This probably reflects the difference of three amino acid residues of the deduced protein sequence. Here we report evidence for corresponding alterations in the native proteins p39/p37 in human sera. Employing mAb 3D11 and a polyclonal factor H-specific antiserum we detected three different patterns in western blot analyses of human sera which we provisionally termed FH1.4p+m+, FH1.4p+m-, and FH1.4p-m-. In the first pattern, p39/p37 were recognized by both antibodies, while in the second pattern the two proteins reacted only with the polyclonal antiserum. Both antibodies failed to detect p39/p37 in the third pattern. These phenotypes are found in the healthy population with frequencies of 0.556, 0.40, and 0.044, respectively. The frequencies of the alleles FH1.4(*)p+m+, FH1.4(*)p+m -,and FH1.4(*)p-m- were estimated to be 0.33, 0.46, and 0.21, respectively, assuming the gene distribution to be in Hardy-Weinberg equilibrium. Studies of 98 members from 27 families revealed an autosomal Mendelian inheritance. Southern blot data support our assumption of a polymorphism of the factor H-related proteins p39 and p37

Differentiation of human iPSCs into functional podocytes.

Podocytes play a critical role in glomerular barrier function, both in health and disease. However, in vivo terminally differentiated podocytes are difficult to be maintained in in vitro culture. Induced pluripotent stem cells (iPSCs) offer the unique possibility for directed differentiation into mature podocytes. The current differentiation protocol to generate iPSC-derived podocyte-like cells provides a robust and reproducible method to obtain podocyte-like cells after 10 days that can be employed in in vitro research and biomedical engineering. Previous published protocols were improved by testing varying differentiation media, growth factors, seeding densities, and time course conditions. Modifications were made to optimize and simplify the one-step differentiation procedure. In contrast to earlier protocols, adherent cells for differentiation were used, the use of fetal bovine serum (FBS) was reduced to a minimum, and thus ß-mercaptoethanol could be omitted. The plating densities of iPSC stocks as well as the seeding densities for differentiation cultures turned out to be a crucial parameter for differentiation results. Conditionally immortalized human podocytes served as reference controls. iPSC-derived podocyte-like cells showed a typical podocyte-specific morphology and distinct expression of podocyte markers synaptopodin, podocin, nephrin and WT-1 after 10 days of differentiation as assessed by immunofluorescence staining or Western blot analysis. qPCR results showed a downregulation of pluripotency markers Oct4 and Sox-2 and a 9-fold upregulation of the podocyte marker synaptopodin during the time course of differentiation. Cultured podocytes exhibited endocytotic uptake of albumin. In toxicological assays, matured podocytes clearly responded to doxorubicin (Adriamycin™) with morphological alterations and a reduction in cell viability after 48 h of incubation