32 research outputs found
Effect of Aging on Human Mesenchymal Stem Cell Therapy in Ischemic Cardiomyopathy Patients
AbstractBackgroundThe role of patient age in the efficacy of mesenchymal stem cell (MSC) therapy in ischemic cardiomyopathy (ICM) is controversial.ObjectivesThis study sought to determine whether the therapeutic effect of culture-expanded MSCs persists, even in older subjects.MethodsPatients with ICM who received MSCs via transendocardial stem cell injection (TESI) as part of the TAC-HFT (Transendocardial Autologous Cells in Ischemic Heart Failure) (n = 19) and POSEIDON (Percutaneous Stem Cell Injection Delivery Effects on Neomyogenesis) (n = 30) clinical trials were divided into 2 age groups: younger than 60 and 60 years of age and older. Functional capacity was measured by 6-min walk distance (6MWD) and quality of life using the Minnesota Living With Heart Failure Questionnaire (MLHFQ) score, measured at baseline, 6 months, and 1 year post-TESI. Various cardiac imaging parameters, including absolute scar size, were compared at baseline and 1 year post-TESI.ResultsThe mean 6MWD was similar at baseline and increased at 1 year post-TESI in both groups: 48.5 ± 14.6 m (p = 0.001) for the younger and 35.9 ± 18.3 m (p = 0.038) for the older participants (p = NS between groups). The older group exhibited a significant reduction in MLHFQ score (−7.04 ± 3.54; p = 0.022), whereas the younger than 60 age group had a borderline significant reduction (−11.22 ± 5.24; p = 0.058) from baseline (p = NS between groups). Although there were significant reductions in absolute scar size from baseline to 1 year post-TESI, the effect did not differ by age.ConclusionsMSC therapy with TESI in ICM patients improves 6MWD and MLHFQ score and reduces myocardial infarction size. Importantly, older individuals did not have an impaired response to MSC therapy
Pregnancy, a unique case of heterochronic parabiosis and peripartum cardiomyopathy.
: A loss of endogenous stem cells capable of tissue repair and regeneration drives the biological process that we recognize as "aging". Recovery of stem cell-mediated repair and regenerative functions in aged animals has been reported in murine heterochronic parabiosis experiments. : Herein we will review how pregnancy is an unusual form of heterochronic parabiosis, as the placenta prevents the exchange of most blood cells between parabionts. Instead, plasma and its content, including small extracellular vesicles, can readily cross the placental barrier. These nanosized extracellular vesicles are readily produced by the placenta, amnion, fetus and mother, and are essential for fetal organogenesis, growth and the progression of a healthy pregnancy. If defective, these extracellular vesicles can cause havoc such as in the case of peripartum cardiomyopathy. We will also review how these extracellular vesicles impact the mother substantially (including cardiac function) in the parabiosis of pregnancy. : Extracellular vesicles generated during the course of a healthy pregnancy are essential for organogenesis and fetal growth, and also for maternal tissue repair and regeneration, and might be defective or deficient in pregnancies that result in peripartum cardiomyopathy
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Abstract 323: Loss of Gravity Impairs Cardiac Neural Crest Cell Lineage Development and Function
Introduction:
A multitude of structural, haemodynamic and electromechanical cardiovascular disorders have been observed in humans following space-travel. These abnormalities are thought to emerge from transient alterations in autonomic nervous system (ANS). However, since the ANS is cardiac neural crest (CNC)-derived, whether microgravity-induced cardiomyopathies reflect CNC dysfunction, is unknown.
Hypothesis:
Impairment of CNCs underlies microgravity-induced cardiomyopathies.
Methods:
Myocardial explants from adult
cKit
CreERT2/+
;IRG
mice (n=5/group), as well as
cKit
CreERT2/+
;IRG-
derived (iPSC
Kit-Cre
; n=6/group) and
Wnt1-Cre;tdTomato
-derived (iPSC
Wnt1-Cre
; n=18/group) induced pluripotent stem cells, were cultured under static (SC) or simulated microgravity conditions (rotary cell-culture system; RCCS).
Results:
CNC lineage-tracing in cardiac explants illustrated that, compared to SC, RCCS abolished the pool of
cKit
+
CNCs in adult hearts, indicated by quantitation of
cKit
CreERT2
-
mediated EGFP expression (
p
<0.05). Cardiogenesis modeling experiments with iPSC
Kit-Cre
yielded fewer beating EBs (
p
=0.0005), and ~10-fold reduction in EGFP
+
cardiomyocytes (
p
=0.01), in RCCS
vs
. SC. Microarray analyses suggested that RCCS-mediated alterations in BMP and Wnt/β-catenin pathways, downregulated ANS and CNC-related gene programs, and enhanced vasculogenic differentiation without affecting the expression of cardiac mesoderm-related genes. Differences were verified by quantitative PCR. Modeling CNC development in iPSC
Wnt1-Cre
further confirmed an RCCS-mediated dramatic impairment in development and function of CNCs, indicated by quantitation of tdTomato expression in day-10 and day-21 beating embryoid bodies (
p
<0.0001). Intriguingly, the effect of RCCS in CNCs could be only partially rescued upon transfer to SC.
Conclusions:
Together these data indicate that microgravity negatively regulates the development and function of CNCs, thus partly explaining the cellular and molecular mechanisms of microgravity-induced cardiomyopathies. Moreover, these findings are expected to have important implications in space exploration, since they suggest an essential role for gravity in vertebrate development
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The Effect of Transendocardial Stem Cell Injection on Erectile Function in Men With Cardiomyopathy: Results From the TRIDENT, POSEIDON, and TAC-HFT Trials
Despite limited human data, there is a growing interest in the use of stem cell therapy (SCT) for erectile dysfunction (ED).
To determine the effect of transendocardial stem cell injection on erectile function on men with cardiomyopathy and ED.
We used International Index of Erectile Function (IIEF) scores collected from men enrolled in 3 separate randomized controlled trials: Comparison of Allogeneic vs Autologous Bone Marrow–Derived Mesenchymal Stem Cells Delivered by Transendocardial Injection in Patients With Ischemic Cardiomyopathy (POSEIDON), Transendocardial Mesenchymal Stem Cells and Mononuclear Bone Marrow Cells for Ischemic Cardiomyopathy (TAC-HFT), and Dose Comparison Study of Allogeneic Mesenchymal Stem Cells in Patients With Ischemic Cardiomyopathy (TRIDENT). These trials recruited patients with ischemic cardiomyopathy and ejection fraction less than 50%. Inclusion and exclusion criteria were identical in all 3 trials. The primary intervention in these trials included transendocardial stem cell injection of stem cells or placebo via cardiac catheterization. The follow-up period was 1 year. IIEF data were collected at baseline and at multiple time points in each trial.
We investigated erectile function over time based on cell dose, cell source (autologous vs allogenic), cell type (mesenchymal stem cells vs bone marrow mononuclear cells), and comparing men who received SCT with those who received placebo.
A total of 36 men were identified with complete IIEF data. 8 men received placebo injection, and 28 received SCT. The median age was 66.5 years. Comorbidities were similar among all men. Analysis was performed on men with ED, defined by an IIEF-EF score of 24 or less. In the placebo and all-comer SCT group, the median IIEF-EF score was 5 [1–8] and 5 [1–15] at baseline and was 3.5 [3–5.8] and 7 [1–18] at 12 months (P > .05). When analyzed by cell dose, the IIEF-EF score in men who received 200 million cells increased significantly over 12 months (14 [4–23] to 20 [15–24.5], P = .014.) Similarly, an autologous cell source resulted in a similar increase from baseline to 12 months (14 [3.8–23.3] to 20 [12–22], P = .030).
Erectile function may improve after systemic delivery of SCT in men with ischemic cardiomyopathy and at least mild ED.
This post hoc analysis is the first to investigate the effect of SCT on erectile function using randomized, placebo-controlled data. Weaknesses include that ED was not a primary end point, and men were not originally recruited based on erectile function.
Future trials on systemic delivery of SCT for ED should focus on high cell dose and autologous cell source, as these seem to provide the best response in men with at least mild ED.
Ory J, Saltzman RG, Blachman-Braun R, et al. The Effect of Transendocardial Stem Cell Injection on Erectile Function in Men With Cardiomyopathy: Results From the TRIDENT, POSEIDON, and TAC-HFT Trials. J Sex Med 2020;17:695–701
Clinical and Neurophysiological Changes after Targeted Intrathecal Injections of Bone Marrow Stem Cells in a C3 Tetraplegic Subject
High-level quadriplegia is a devastating condition with limited treatment options. Bone marrow derived stem cells (BMSCs) are reported to have immunomodulatory and neurotrophic effects in spinal cord injury (SCI). We report a subject with complete C2 SCI who received three anatomically targeted intrathecal infusions of BMSCs under a single-patient expanded access investigational new drug (IND). She underwent intensive physical therapy and was followed for >2 years. At end-point, her American Spinal Injury Association Impairment Scale (AIS) grade improved from A to B, and she recovered focal pressure touch sensation over several body areas. We conducted serial neurophysiological testing to monitor changes in residual connectivity. Motor, sensory, and autonomic system testing included motor evoked potentials (MEPs), somatosensory evoked potentials (SSEPs), electromyography (EMG) recordings, F waves, galvanic skin responses, and tilt-table responses. The quality and magnitude of voluntary EMG activations increased over time, but remained below the threshold of clinically obvious movement. Unexpectedly, at 14 months post-injury, deep inspiratory maneuvers triggered respiratory-like EMG bursting in the biceps and several other muscles. This finding means that connections between respiratory neurons and motor neurons were newly established, or unmasked. We also report serial analysis of MRI, International Standards for Neurological Classification of SCI (ISNCSCI), pulmonary function, pain scores, cerebrospinal fluid (CSF) cytokines, and bladder assessment. As a single case, the linkage of the clinical and neurophysiological changes to either natural history or to the BMSC infusions cannot be resolved. Nevertheless, such detailed neurophysiological assessment of high cervical SCI patients is rarely performed. Our findings indicate that electrophysiology studies are sensitive to define both residual connectivity and new plasticity
Allogeneic Mesenchymal Stem Cells Restore Endothelial Function in Heart Failure by Stimulating Endothelial Progenitor Cells
Background: Endothelial dysfunction, characterized by diminished endothelial progenitor cell (EPC) function and flow-mediated vasodilation (FMD), is a clinically significant feature of heart failure (HF). Mesenchymal stem cells (MSCs), which have pro-angiogenic properties, have the potential to restore endothelial function. Accordingly, we tested the hypothesis that MSCs increase EPC function and restore flow-mediated vasodilation (FMD).
Methods: Idiopathic dilated and ischemic cardiomyopathy patients were randomly assigned to receive autologous (n = 7) or allogeneic (n = 15) MSCs. We assessed EPC-colony forming units (EPC-CFUs), FMD, and circulating levels of vascular endothelial growth factor (VEGF) in patients before and three months after MSC transendocardial injection (n = 22) and in healthy controls (n = 10).
Findings: EPC-colony forming units (CFUs) were markedly reduced in HF compared to healthy controls (4 ± 3 vs. 25 ± 16 CFUs, P < 0.0001). Similarly, FMD% was impaired in HF (5.6 ± 3.2% vs. 9.0 ± 3.3%, P = 0.01). Allogeneic, but not autologous, MSCs improved endothelial function three months after treatment (Δ10 ± 5 vs. Δ1 ± 3 CFUs, P = 0.0067; Δ3.7 ± 3% vs. Δ-0.46 ± 3% FMD, P = 0.005). Patients who received allogeneic MSCs had a reduction in serum VEGF levels three months after treatment, while patients who received autologous MSCs had an increase (P = 0.0012), and these changes correlated with the change in EPC-CFUs (P < 0.0001). Lastly, human umbilical vein endothelial cells (HUVECs) with impaired vasculogenesis due to pharmacologic nitric oxide synthase inhibition, were rescued by allogeneic MSC conditioned medium (P = 0.006).
Interpretation: These findings reveal a novel mechanism whereby allogeneic, but not autologous, MSC administration results in the proliferation of functional EPCs and improvement in vascular reactivity, which in turn restores endothelial function towards normal in patients with HF. These findings have significant clinical and biological implications for the use of MSCs in HF and other disorders associated with endothelial dysfunction
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Genetic determinants of responsiveness to mesenchymal stem cell injections in non-ischemic dilated cardiomyopathy
Non-ischemic dilated cardiomyopathy (NIDCM) responds variably to intramyocardial injection of mesenchymal stem cells (MSCs). We hypothesized that NIDCM genotype may influence responsiveness to MSC therapy and performed genotyping on all patients in the POSEIDON-DCM trial.
POSEIDON-DCM patients (n = 34) underwent genetic sequence analysis and deletion/duplication testing. The results were classified as positive for pathological variants (PV+; n = 8), negative for any variants (V−; n = 6), or as variants of uncertain significance (VUS; n = 20). All outcomes of therapy were analysed for each category of genetic results.
The 3 groups were indistinguishable at baseline with regard to ejection fraction (EF), demographics, medication use, or functional parameters. V− patients had an increase in EF at 12 months: +13.6% (IQR = +7.8%; +20.5%; p = 0.002), compared with VUS (+6.5%; IQR = +0.9%, +11.1%; p = 0.005) and PV+(−5.9%; IQR = −12.7%, +1.0; p = 0.2; p = 0.01 between groups). Six-minute walk distance improved in V- patients, but not in VUS and PV+. V− patients improved MLHFQ, compared to the other 2 groups, which did not improve over time. EPCCFUs increased by 9.7 ± 1.9 in V− (p = 0.009) compared to VUS and PV+ patients. V− patients had one-year survival (100%) compared with VUS (85%) and PV+ (40%; p = 0.015 log-rank). Similarly, MACE rates were lower in V− (0%) than PV+ (61.9%) or VUS (42.2%; p = 0.021 log-rank).
Our findings support the concept that the genetic profile of NIDCM patients plays a role in responsiveness to MSC therapy, with V− patients more likely to benefit and the converse for PV+. This observation emphasizes the need for further genetic studies, because of important implications for the management of NIDCM syndromes
Simulated Microgravity Impairs Cardiac Autonomic Neurogenesis from Neural Crest Cells
Microgravity-induced alterations in the autonomic nervous system (ANS) contribute to derangements in both the mechanical and electrophysiological function of the cardiovascular system, leading to severe symptoms in humans following space travel. Because the ANS forms embryonically from neural crest (NC) progenitors, we hypothesized that microgravity can impair NC-derived cardiac structures. Accordingly, we conducted in vitro simulated microgravity experiments employing NC genetic lineage tracing in mice with
cKit
CreERT2/+
,
Isl1nLacZ
, and
Wnt1-Cre
reporter alleles. Inducible fate mapping in adult mouse hearts and pluripotent stem cells (iPSCs) demonstrated reduced
cKit
CreERT2/+
-
mediated labeling of both NC-derived cardiomyocytes and autonomic neurons (
P
 < 0.0005 vs. controls). Whole transcriptome analysis, suggested that this effect was associated with repressed cardiac NC- and upregulated mesoderm-related gene expression profiles, coupled with abnormal bone morphogenetic protein (BMP)/transforming growth factor beta (TGF-β) and Wnt/β-catenin signaling. To separate the manifestations of simulated microgravity on NC versus mesodermal-cardiac derivatives, we conducted
Isl1nLacZ
lineage analyses, which indicated an approximately 3-fold expansion (
P
 < 0.05) in mesoderm-derived
Isl-1
+
pacemaker sinoatrial nodal cells; and an approximately 3-fold reduction (
P
 < 0.05) in cardiac NC-derived ANS cells, including sympathetic nerves and
Isl-1
+
cardiac ganglia. Finally, NC-specific fate mapping with a
Wnt1-Cre
reporter iPSC model of murine NC development confirmed that simulated microgravity directly impacted the in vitro development of cardiac NC progenitors and their contribution to the sympathetic and parasympathetic innervation of the iPSC-derived myocardium. Altogether, these findings reveal an important role for gravity in the development of NCs and their postnatal derivatives, and have important therapeutic implications for human space exploration, providing insights into cellular and molecular mechanisms of microgravity-induced cardiomyopathies/channelopathies