The normal function of the androgen receptor plays a role in the pathology of SBMA /

Thomas, Patrick Shane,

January 2007

Thesis (Ph. D.)--University of Washington, 2007. / Vita. Includes bibliographical references (leaves 112-138).

Characterization of cellular pathways in spinal muscular atrophy

Rose, Ferrill Franklin, Lorson, Christian

January 2009

The entire dissertation/thesis text is included in the research.pdf file; the official abstract appears in the short.pdf file (which also appears in the research.pdf); a non-technical general description, or public abstract, appears in the public.pdf file. Title from PDF of title page (University of Missouri--Columbia, viewed on March 25, 2010). Vita. Thesis advisor: Christian Lorson. "July 2009" Includes bibliographical references.

Understanding the pathogenesis of spinal muscular atrophy by determining the role of survival motor neuron protein in early development

Szunyogová, Eva

January 2017

Spinal Muscular Atrophy (SMA) is caused by mutation or deletion of the Survival Motor Neuron 1 (SMN1), which encodes cell-ubiquitous SMN protein. Although classified as a neuromuscular disease, a range of systemic pathologies is reported in SMA patients. Despite a clear understanding of the genetics, the role of SMN protein in SMA pathogenesis is somewhat unclear, especially in tissues outside the CNS. Here, we describe failed liver development in response to reduced SMN levels, in a Taiwanese mouse model of severe SMA. Molecular analysis revealed significant changes in proteins involved in cell cycling and blood homeostasis including coagulation prior to motor neuron pathology. With SMN being directly associated with some of these proteins, this indicates primary liver pathology in SMA. Study of livers obtained from two other mouse models of SMA; severe SMNΔ7 and intermediate 2B, which have slightly higher SMN levels than Taiwanese SMA mice, also revealed significant overlapping pathologies, suggestive of high intrinsic susceptibility of the liver to SMN decrease. Proteomic study of pre-symptomatic 2B/- liver revealed significant perturbations in mitochondrial bioenergetics, which could account for metabolic defects in SMA patients. Vascular changes can be observed in mouse models of SMA and even skeletal muscle of severe SMA patients. Although Taiwanese SMA liver showed no morphological changes to its vasculature, it does have impairments in several key vascular signaling molecules, including VEGF and Tie-2. Furthermore, we report for the first time significant vascular changes in a zebrafish model of SMA, that could be associated with defective neuronal-vascular signaling and is supported by preliminary findings in the Taiwanese SMA retina. This thesis uncovers perturbations in several clinically relevant signalling pathways directly linked to SMN decrease, independent of the motor neurone pathology. Taken together this work emphasises the importance of a systemic therapy in SMA.

Biochemical and Functional Characterization of Novel RNA-binding Proteins Interacting with SMN in Motor Neuron-derived Cells

Laframboise, Janik

January 2013

Spinal muscular atrophy is an autosomal recessive genetic disease that results from the loss and/or degeneration of alpha motor neurons in the lower part of the spinal cord. With ~ 1 in 6000 live births per year being affected, this disease is the second leading cause of infant death and is caused by the loss or decrease of the Survival of Motor Neuron protein (SMN). While a lot is known about the role that SMN plays in the cytoplasmic assembly of spliceosomal small nuclear ribonucleoproteins (snRNPs), it remains a crucial question in the field to gain a better understanding of what specific/distinct function(s) SMN might have in motor neurons. We have identified novel interactions between SMN and two RNA-binding proteins (RBPs) known to be components of axonal RNA granules. More specifically, we demonstrated that SMN interacts with HuD and SERBP1 in a direct fashion in foci-like structures along neurites of motor neuron-derived cells. We have also demonstrated that the SMN/HuD interaction is required for the localization of HuD into RNA granules in neurites of motor neuron-derived cells. Furthermore, I have shown that SERBP1 is down-regulated in the absence of normal levels of SMN and, most importantly, that over-expression of SERBP1 can rescue SMA-like neuronal defects using a cell culture model of the disease. These findings may help shed light on the non-canonical molecular pathway(s) involving SMN and RBPs in motor neurons and underscores the possible therapeutic benefits of targeting these RBPs in the treatment of SMA.

Spinal muscular atrophy

HuD

SERBP1

SMN

Arginine methylation

RNA-binding protein

The Smn-Independent Beneficial Effects of Trichostatin A on an Intermediate Mouse Model of Spinal Muscular Atrophy

Yazdani, Armin A.

January 2014

Trichostatin A (TSA) is a histone deacetylase inhibitor with beneficial effects in spinal muscular atrophy mouse models that carry the human SMN2 transgene. Whether TSA specifically targets the upregulation of the SMN2 gene or whether other genes respond to TSA and in turn provide neuroprotection in SMA mice is unclear. We have taken advantage of the Smn2B/- mouse model that does not harbor the human SMN2 transgene, to test the hypothesis that TSA has its beneficial effects through a non-Smn mediated pathway. Daily intraperitoneal injection of TSA from postnatal day 12 to 25 was performed in the Smn2B/- mice and littermate controls. Previous work from our laboratory demonstrated that treatment with TSA increased the median lifespan of Smn2B/- mice from twenty days to eight weeks. As well, there was a significant attenuation of weight loss and improved motor behavior. Pen test and righting reflex both showed significant improvement, and motor neurons in the spinal cord of Smn2B/-mice were protected from degeneration. Both the size and maturity of neuromuscular junctions were significantly improved in TSA treated Smn2B/- mice. Here, we have shown that TSA treatment does not increase the levels of Smn protein in mouse embryonic fibroblasts or myoblasts obtained from the Smn2B/- mice. Further, qPCR analysis revealed no changes in the level of Smn transcripts in the brain or spinal cord of TSA-treated SMA mice. Similarly, western blot analysis revealed no significant increase in Smn protein levels in the brain, spinal cord, hind limb muscle, heart muscle, or the liver of TSA treated Smn2B/- mice. However, TSA has beneficial effects in the muscles of Smn2B/- mice and improves motor behavior and myofiber size. TSA improves muscle development by enhancing the activity of myogenic regulatory factors independent of the Smn gene. The beneficial effect of TSA is therefore likely through an Smn-independent manner. Identification of these protective pathways will be of therapeutic value for the treatment of SMA.

Motor neuron disease

Spinal muscular atrophy

Survival motor neuron

Trichostatin A

Therapeutics

HDAC inhibitor

Role sestřihu pre-mRNA při rozvoji lidských dědičných onemocněních / The role of pre-mRNA splicing in human hereditary diseases

Malinová, Anna

January 2017

U5 small ribonucleoprotein particle (U5 snRNP) is a crucial component of the spliceosome, the complex responsible for pre-mRNA splicing. Despite the importance of U5 snRNP, not much is known about its biogenesis. When we depleted one of the core U5 components, protein PRPF8, the other U5-specific proteins do not associate with U5 snRNA and the incomplete U5 was accumulated in nuclear structures known as Cajal bodies. To further clarify the role of PRPF8 in U5 snRNP assembly, we studied PRPF8 mutations that cause an autosomal dominant retinal disorder, retinitis pigmentosa (RP). We prepared eight different PRPF8 variants carrying RP-associated mutations and expressed them stably in human cell culture. We showed that most mutations interfere with the assembly of snRNPs which consequently leads to reduced efficiency of splicing. The mutant PRPF8 together with EFTUD2 are stalled in the cytoplasm in a form of U5 snRNP assembly intermediate. Strikingly, we identified several chaperons including the HSP90/R2TP complex and ZNHIT2 as new PRPF8's interactors and potential U5 snRNP assembly factors. Our results further imply that these chaperons preferentially bind the unassembled U5 complexes and that HSP90 is required for stability of...

A Functional Analysis of the Small Nuclear RNP Import Adaptor, Snurportin1

Ospina, Jason Kerr

01 August 2005

No description available.

Biology, Genetics

Snurportin

snRNP biogenesis

Nuclear import

Survival of Motor Neurons

Spinal Muscular Atrophy

Cajal Bodies

Characterization of Mutant SMN and Development of Mutant SMN Transgenic Mice

Workman, Eileen

26 June 2009

No description available.

Biochemistry

Biomedical Research

Cellular Biology

Molecular Biology

Neurology

SMN

Survival Motor Neuron

SMA

Spinal Muscular Atrophy

Transcriptional Programming of Spinal Motor Neurons from Stem Cells

Murtha, Matthew J., III

15 January 2010

No description available.

Molecular Biology

Motor neuron

stem cell

amyotrophic lateral sclerosis

spinal muscular atrophy

Investigating the pre-mRNA splicing of the Survival Motor Neuron genes to model the Spinal Muscular Atrophy disease phenotype

Gladman, Jordan Tanin

12 October 2010

No description available.

Molecular Biology

Spinal Muscular Atrophy

Survival Motor Neuron

pre-mRNA, RNA splicing