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Light chain (AL) amyloidosis is a serious systemic disease caused by the deposition of free misfolded immunoglobulin light chains (LCs) in the form of amyloid fibrils within tissues. Cardiac involvement determines prognosis and mortality. An important cytotoxic impact of amyloidogenic prefibrillar LC oligomers on cardiomyocytes is by now established in isolated rodent cardiomyocytes,simple animal models,or cardiomyocyte-like cell lines. However,the response of human cardiomyocytes to this pathogenic condition is currently unknown. In this work,we have set up a human cellular disease model of AL cardiac amyloidosis (AL-CA) in the form of cardiac spheroids,to study the cytotoxic effects of amyloidogenic LCs with regard to contractile function and calcium handling. To mimic the disease in a reconstituted system,soluble amyloidogenic LCs purified from urine of AL-CA patients were added to a mixture of induced pluripotent stem cell-issued human cardiomyocytes (hiPSC-CM) and human primary cardiac fibroblasts,which resulted in formation of spheroids within 7 days. This procedure ensured a uniform pericellular LC distribution within spheroids. LC-treated hiPSC-CM cultures and LC-containing spheroids presented structural and functional defects including: (1) decreased levels and subcellular disorganization of sarcomeric protein alpha-actinin; (2) abnormal accumulation of calcium handling SERCA2a protein; (3) impaired contractility of spheroids and altered calcium transients. Three independent patient-derived LCs had similar effects,albeit to varying degrees,highlighting the patient-specific properties of this type of amyloids. Taken together,these results indicate that the present cardiac spheroid disease model could be appropriate to the study of cardiac cytotoxicity caused by different amyloidogenic LCs in AL-CA patients,contributing to a better understanding and therapeutic handling of the disease. The online version contains supplementary material available at 10.1038/s41598-024-82442-3. View Publication

Understanding the complex mechanisms that govern the fate decisions of human embryonic stem cells (hESCs) is fundamental to their use in cell replacement therapies. The progress of dissecting these mechanisms will be facilitated by the availability of robust high-throughput screening assays on hESCs. In this study,we report an image-based high-content assay for detecting compounds that affect hESC survival or pluripotency. Our assay was designed to detect changes in the phenotype of hESC colonies by quantifying multiple parameters,including the number of cells in a colony,colony area and shape,intensity of nuclear staining,and the percentage of cells in the colony that express a marker of pluripotency (TRA-1-60),as well as the number of colonies per well. We used this assay to screen 1040 compounds from two commercial compound libraries,and identified 17 that promoted differentiation,as well as 5 that promoted survival of hESCs. Among the novel small compounds we identified with activity on hESC are several steroids that promote hESC differentiation and the antihypertensive drug,pinacidil,which affects hESC survival. The analysis of overlapping targets of pinacidil and the other survival compounds revealed that activity of PRK2,ROCK,MNK1,RSK1,and MSK1 kinases may contribute to the survival of hESCs. View Publication

We examined the effects of 1,25-dihydroxyvitamin D3 [1,25(OH)2D3],25-hydroxyvitamin D3 (25OHD3),and vitamin D3 on human keratinocyte proliferation and differentiation in a serum-free or defined culture system. Concentrations greater than 10(-8) M 1,25-(OH)2D3 or 10(-7) M 25(OH)2D3 caused marked inhibition of cell growth. Growth inhibition with high doses of 1,25-(OH)2D3 was not stringent,but was mainly exerted in the G1 phase of the cell cycle. Early release from the cell cycle block restored the proliferation of human keratinocytes. The calcium concentration in the medium had no significant effect on the antiproliferative action of 1,25-(OH)2D3,25OHD3,and vitamin D3. We also show that human keratinocyte proliferation is enhanced at doses of 1,25-(OH)2D3 and 25OH2D3 of 10(-9) M or less. Enhanced proliferation of human keratinocytes with physiological concentrations of 1,25-(OH)2D3 could only be shown in fully defined medium that contained no vitamin D3,related sterols,or bovine pituitary extract. Human keratinocyte differentiation was enhanced with higher doses of 1,25-(OH)2D3 when cells were grown in the presence of high calcium concentrations. These studies demonstrate that the lower,physiological concentrations of vitamin D3 metabolites are capable of stimulating the proliferation of epidermal keratinocytes grown under selected conditions that eliminate confounding or unidentified medium culture factors. Vitamin D3 metabolites are shown to exert mitogenic trophic effects in cultured human epithelial cells similar to their established activities in vivo. View Publication

1. We have investigated the inhibitory effects of RP 73401 (piclamilast) and rolipram against human monocyte cyclic AMP-specific phosphodiesterase (PDE4) in relation to their effects on prostaglandin (PG)E2-induced cyclic AMP accumulation and lipopolysaccharide (LPS)-induced TNF alpha production and TNF alpha mRNA expression. 2. PDE4 was found to be the predominant PDE isoenzyme in the cytosolic fraction of human monocytes. Cyclic GMP-inhibited PDE (PDE3) was also detected in the cytosolic and particulate fractions. Reverse transcription polymerase chain reaction (RT-PCR) of human monocyte poly (A+) mRNA revealed amplified products corresponding to PDE4 subtypes A and B of which the former was most highly expressed. A faint band corresponding in size to PDE4D was also observed. 3. RP 73401 was a potent inhibitor of cytosolic PDE4 (IC50: 1.5 +/- 0.6 nM,n = 3). (+/-)-Rolipram (IC50: 313 +/- 6.7 nM,n = 3) was at least 200 fold less potent than RP 73401. R-(-)-rolipram was approximately 3 fold more potent than S-(+)-rolipram against cytosolic PDE4. 4. RP 73401 (IC50: 9.2 +/- 2.1 nM,n = 6) was over 50 fold more potent than (+/-)-rolipram (IC50: 503 +/- 134 nM,n = 6) ) in potentiating PGE2-induced cyclic AMP accumulation. R-(-)-rolipram (IC50: 289 +/- 121 nM,n = 5) was 4.7 fold more potent than its S-(+)-enantiomer (IC50: 1356 +/- 314 nM,n = 5). A strong and highly-significant,linear correlation (r = 0.95,P textless 0.01,n = 13) was observed between the inhibitory potencies of a range of structurally distinct PDE4 inhibitors against monocyte PDE4 and their ED50 values in enhancing monocyte cyclic AMP accumulation. A poorer,though still significant,linear correlation (r = 0.67,P textless 0.01,n = 13) was observed between the potencies of the same compounds in potentiating PGE2-induced monocyte cyclic AMP accumulation and their abilities to displace [3H]-rolipram binding to brain membranes. 5. RP 73401 (IC50: 6.9 +/- 3.3 nM,n = 5) was 71 fold more potent than (+/-)-rolipram (IC50: 490 +/- 260 nM,n = 4) in inhibiting LPS-induced TNF alpha release from monocytes. R-(-)-rolipram (IC50: 397 +/- 178 nM,n = 3) was 5.2-fold more potent than its S-(+)- enantiomer (IC50: 2067 +/- 659 nM,n = 3). As with cyclic AMP,accumulation a closer,linear correlation existed between the potency of structurally distinct compounds in suppressing TNF alpha with PDE4 inhibition (r = 0.93,P textless 0.01,n = 13) than with displacement of [3H]-rolipram binding (r = 0.65,P textless 0.01,n = 13). 6. RP 73401 (IC50: 2 nM) was 180 fold more potent than rolipram (IC50: 360 nM) in suppressing LPS (10 ng ml-1)-induced TNF alpha mRNA. 7. The results demonstrate that RP 73401 is a very potent inhibitor of TNF alpha release from human monocytes suggesting that it may have therapeutic potential in the many pathological conditions associated with over-production of this pro-inflammatory cytokine. Furthermore,PDE inhibitor actions on functional responses are better correlated with inhibition of PDE4 catalytic activity than displacement of [3H]-rolipram from its high-affinity binding site,suggesting that the native PDE4 in human monocytes exists predominantly in a 'low-affinity' state. View Publication

Repressor element-1 silencing transcription factor (REST) is a transcriptional repressor involved in neurodevelopment and neuroprotection. REST forms a complex with the REST corepressors,CoREST1,CoREST2,or CoREST3 (encoded by RCOR1,RCOR2,and RCOR3,respectively). Emerging evidence suggests that the CoREST family can target unique genes independently of REST,in various neural and glial cell types during different developmental stages. However,there is limited knowledge regarding the expression and function of the CoREST family in human neurodevelopment. To address this gap,we employed 2D and 3D human pluripotent stem cell (hPSC) models to investigate REST and RCOR gene expression levels. Our study revealed a significant increase in RCOR3 expression in glutamatergic cortical and GABAergic ventral forebrain neurons,as well as mature functional NGN2-induced neurons. Additionally,a simplified astrocyte transdifferentiation protocol resulted in a significant decrease in RCOR2 expression following differentiation. REST expression was notably reduced in mature neurons and cerebral organoids. In summary,our findings provide the first insights into the cell-type-specific expression patterns of RCOR genes in human neuronal and glial differentiation. Specifically,RCOR3 expression increases in neurons,while RCOR2 levels decrease in astrocytes. The dynamic expression patterns of REST and RCOR genes during hPSC neuronal and glial differentiation underscore the potential distinct roles played by REST and CoREST proteins in regulating the development of these cell types in humans. Graphical abstractImage 1 Highlights•REST and RCOR genes display cell-type specific expression patterns in neural cells.•RCOR3 (encodes CoREST3) is upregulated during neuronal and astrocyte differentiation.•RCOR2 (encodes CoREST2) is downregulated during differentiation of astrocytes.•Evidence of potential cell-type specific functions of the CoREST family. View Publication

BACKGROUND Human (h) embryonic stem cells (ESCs) and induced pluripotent stem cells (iPSCs) serve as a potential unlimited ex vivo source of cardiomyocytes (CMs). However,a well-accepted roadblock has been their immature phenotype. hESC/iPSC-derived ventricular (v) CMs and their engineered cardiac microtissues (hvCMTs) similarly displayed positive chronotropic but null inotropic responses to $\$-adrenergic stimulation. Given that phospholamban (PLB) is robustly present in adult but poorly expressed in hESC/iPSC-vCMs and its defined biological role in $\$-adrenergic signaling,we investigated the functional consequences of PLB expression in hESC/iPSC-vCMs and hvCMTs. METHODS AND RESULTS First,we confirmed that PLB protein was differentially expressed in hESC (HES2,H9)- and iPSC-derived and adult vCMs. We then transduced hES2-vCMs with the recombinant adenoviruses (Ad) Ad-PLB or Ad-S16E-PLB to overexpress wild-type PLB or the pseudophosphorylated point-mutated variant,respectively. As anticipated from the inhibitory effect of unphosphorylated PLB on sarco/endoplasmic reticulum Ca2+-ATPase,Ad-PLB transduction significantly attenuated electrically evoked Ca2+ transient amplitude and prolonged the 50% decay time. Importantly,Ad-PLB-transduced hES2-vCMs uniquely responded to isoproterenol. Ad-S16E-PLB-transduced hES2-vCMs displayed an intermediate phenotype. The same trends were observed with H9- and iPSC-vCMs. Directionally,similar results were also seen with Ad-PLB-transduced and Ad-S16E-transduced hvCMTs. However,Ad-PLB altered neither the global transcriptome nor ICa,L,implicating a PLB-specific effect. CONCLUSIONS Engineered upregulation of PLB expression in hESC/iPSC-vCMs restores a positive inotropic response to $\$-adrenergic stimulation. These results not only provide a better mechanistic understanding of the immaturity of hESC/iPSC-vCMs but will also lead to improved disease models and transplantable prototypes with adult-like physiological responses. View Publication

There is little insight into or agreement about the signals that control differentiation of memory B cells (MBCs) and long-lived plasma cells (LLPCs). By performing BrdU pulse-labeling studies,we found that MBC formation preceded the formation of LLPCs in an adoptive transfer immunization system,which allowed for a synchronized Ag-specific response with homogeneous Ag-receptor,yet at natural precursor frequencies. We confirmed these observations in wild-type (WT) mice and extended them with germinal center (GC) disruption experiments and variable region gene sequencing. We thus show that the GC response undergoes a temporal switch in its output as it matures,revealing that the reaction engenders both MBC subsets with different immune effector function and,ultimately,LLPCs at largely separate points in time. These data demonstrate the kinetics of the formation of the cells that provide stable humoral immunity and therefore have implications for autoimmunity,for vaccine development,and for understanding long-term pathogen resistance. View Publication

It has been proposed that the ancestral fungus was mating competent and homothallic. However,many mating-competent fungi were initially classified as asexual because their mating capacity was hidden behind layers of regulation. For efficient in vitro mating,the essentially obligate diploid ascomycete pathogen Candida albicans has to change its mating type locus from heterozygous MTL a /α to homozygous MTL a / a or MTL α/α and then undergo an environmentally controlled epigenetic switch to the mating-competent opaque form. These requirements greatly reduce the potential for C. albicans mating. Deletion of the Yci1 domain gene OFR1 bypasses the need for C. albicans cells to change the mating type locus from heterozygous to homozygous prior to switching to the opaque form and mating and allows homothallic mating of MTL heterozygous strains. This bypass is carbon source dependent and does not occur when cells are grown on glucose. Transcriptional profiling of ofr1 mutant cells shows that in addition to regulating cell type and mating circuitry,Ofr1 is needed for proper regulation of histone and chitin biosynthesis gene expression. It appears that OFR1 is a key regulator in C. albicans and functions in part to maintain the cryptic mating phenotype of the pathogen. View Publication

Netrin-1 is a neuronal guidance cue that regulates cellular activation,migration,and cytoskeleton rearrangement in multiple cell types. It is a chemotropic protein that is expressed within tissues and elicits both attractive and repulsive migratory responses. Netrin-1 has recently been found to modulate the immune response via the inhibition of neutrophil and macrophage migration. However,the ability of Netrin-1 to interact with lymphocytes and its in-depth effects on leukocyte migration are poorly understood. In this study,we profiled the mRNA and protein expression of known Netrin-1 receptors on human CD4(+) T cells. Neogenin,uncoordinated-5 (UNC5)A,and UNC5B were expressed at low levels in unstimulated cells,but they increased following mitogen-dependent activation. By immunofluorescence,we observed a cytoplasmic staining pattern of neogenin and UNC5A/B that also increased following activation. Using a novel microfluidic assay,we found that Netrin-1 stimulated bidirectional migration and enhanced the size of migratory subpopulations of mitogen-activated CD4(+) T cells,but it had no demonstrable effects on the migration of purified CD4(+)CD25(+)CD127(dim) T regulatory cells. Furthermore,using a short hairpin RNA knockdown approach,we observed that the promigratory effects of Netrin-1 on T effectors is dependent on its interactions with neogenin. In the humanized SCID mouse,local injection of Netrin-1 into skin enhanced inflammation and the number of neogenin-expressing CD3(+) T cell infiltrates. Neogenin was also observed on CD3(+) T cell infiltrates within human cardiac allograft biopsies with evidence of rejection. Collectively,our findings demonstrate that Netrin-1/neogenin interactions augment CD4(+) T cell chemokinesis and promote cellular infiltration in association with acute inflammation in vivo. View Publication

BACKGROUND Fragile X syndrome (FXS),a common cause of intellectual disability and autism,results from the expansion of a CGG-repeat tract in the 5' untranslated region of the FMR1 gene to<200 repeats. Such expanded alleles,known as full mutation (FM) alleles,are epigenetically silenced in differentiated cells thus resulting in the loss of FMRP,a protein important for learning and memory. The timing of repeat expansion and FMR1 gene silencing is controversial. METHODS We monitored the repeat size and methylation status of FMR1 alleles with expanded CGG repeats in patient-derived induced pluripotent stem cells (iPSCs) and embryonic stem cells (ESCs) that were grown for extended period of time either as stem cells or differentiated into neurons. We used a PCR assay optimized for the amplification of large CGG repeats for sizing,and a quantitative methylation-specific PCR for the analysis of FMR1 promoter methylation. The FMR1 mRNA levels were analyzed by qRT-PCR. FMRP levels were determined by western blotting and immunofluorescence. Chromatin immunoprecipitation was used to study the association of repressive histone marks with the FMR1 gene in FXS ESCs. RESULTS We show here that while FMR1 gene silencing can be seen in FXS embryonic stem cells (ESCs),some silenced alleles contract and when the repeat number drops below ˜400,DNA methylation erodes,even when the repeat number remains<200. The resultant active alleles do not show the large step-wise expansions seen in stem cells from other repeat expansion diseases. Furthermore,there may be selection against large active alleles and these alleles do not expand further or become silenced on neuronal differentiation. CONCLUSIONS Our data support the hypotheses that (i) large expansions occur prezygotically or in the very early embryo,(ii) large unmethylated alleles may be deleterious in stem cells,(iii) methylation can occur on alleles with<400 repeats very early in embryogenesis,and (iv) expansion and contraction may occur by different mechanisms. Our data also suggest that the threshold for stable methylation of FM alleles may be higher than previously thought. A higher threshold might explain why some carriers of FM alleles escape methylation. It may also provide a simple explanation for why silencing has not been observed in mouse models with<200 repeats. View Publication

Hoechst-effluxing cells (side population cells) are a rare subset of cells found in adult tissues that are highly enriched for stem and progenitor cell activity. To identify potential stem and progenitor cells during lung development,we generated gene expression profiles for CD45- and CD45+ side population cells in the embryonic day 17.5 lung. We found that side population cells comprise 1% of total embryonic day 17.5 lung cells (55% CD45+,45% CD45-). Gene profiling data demonstrated an overrepresentation of endothelial genes within the CD45- side population. We used expression of several distinct genes to identify two types of CD45- side population cells: 1) von Willebrand factor+/smooth muscle actin+ cells that reside in the muscular layer of select large vessels and 2) von Willebrand factor+/intercellular adhesion molecule+ cells that reside within the endothelial layer of select small vessels. Gene profiling of the CD45+ side population indicated an overrepresentation of genes associated with myeloid cell differentiation. Consistent with this,culturing CD45+ side population cells was associated with induction of mature dendritic markers (CD86). The microarray results suggested that expression of myeloperoxidase and proteinase-3 might be used to identify CD45+ side population cells. By immunohistochemistry,we found that myeloperoxidase+/proteinase-3+ cells represent a small subset of total CD45+ cells in the embryonic day 17.5 lung and that they reside in the mesenchyme and perivascular regions. This is the first detailed information regarding the phenotype and localization of side population cells in a developing organ. View Publication