Gene expression editing in myeloma cell lines using CRISPR/Cas9 technique

Wadman, Wilma

January 2023

Multiple myeloma, or myeloma, is a bone marrow cancer which characterizes by uncontrolled proliferation of mutant plasma cells. It is a disease that claims many lives every year, mostly due to the absence of curative treatment. Finding a suitable treatment is therefor of great importance. One way to study different diseases is to use a gene editing method for knockdown or knockout of specific genes. The main aim of this project was to design guide RNAs, to be able to use CRISPR/Cas9 for knockout of the two genes BMPR1A and BMPR2 in different myeloma cell lines (KJON, INA-6 and IH-1). This, to be able to study the expression and function of these genes. Further aim of the project was to investigate potential SMAD activation by treatment with different bone morphogenetic proteins (BMPs). However, due to limited time this could not be carried through. Six guide RNAs were designed and ligated into pLentiCRISPRv2. Plasmid amplification was done by transformation of Escherichia coli. To check the quality of the plasmids, PCR, gel electrophoresis and Sanger sequencing was performed. The results from the gel electrophoresis showed that nine of the twelve samples for BMPR1A and seven of the thirteen samples for BMPR2, that were tested, were positive. The results from the Sanger sequencing confirmed that all guides that were tested (BMPR1A 3.2.3, BMPR1A 4.2.2, BMPR2 1.1.4 and BMPR2 2.1.2), were properly ligated into the plasmids. The main aim of the project was successfully accomplished, but additional work is needed for any further conclusions.

BMPR1A

BMPR2

bone morphogenetic protein

gene knockout

multiple myeloma

Biomedical Laboratory Science/Technology

Pyruvate Dehydrogenase Kinase 4 Deficiency and Hepatic Steatosis

Hwang, Byounghoon

23 June 2009

Indiana University-Purdue University Indianapolis (IUPUI) / Regulation of the pyruvate dehydrogenase complex (PDC) is important for glucose homeostasis and control of fuel selection by tissues. Knocking out pyruvate dehydrogenase kinase 4 (PDK4), one of four kinases responsible for regulation of PDC activity, lowers blood glucose levels by limiting the supply of three carbon compounds for gluconeogenesis. Down regulation of PDK4 expression is also important for control of blood glucose by insulin. The primary goal was to determine whether PDK4 should be considered a target for the treatment of diabetes. A major concern is that inhibition of fatty acid oxidation by PDK4 deficiency may promote fat accumulation in tissues and worsen insulin sensitivity. This was examined by feeding wild type and PDK4 knockout mice a diet rich in saturated fat. Fasting blood glucose levels were lower, glucose tolerance was better, insulin sensitivity was greater, and liver fat was reduced in PDK4 knockout mice. The reduction in liver fat is contradictory to the finding that fibrate drugs increase PDK4 expression but ameliorate hepatic steatosis in rodents. To investigate this phenomenon, wild type and PDK4 knockout mice were fed the high saturated fat diet with and without clofibric acid. The beneficial effect of clofibric acid on hepatic steatosis was greater in the PDK4 knockout mice, indicating up regulation of PDK4 is not necessary and likely opposes the effect of clofibric acid on hepatic steatosis. Clofibric acid dramatically lowered the amount of hepatic CD36, a plasma membrane translocase required for fatty acid import, suggesting a novel mechanism for prevention of hepatic steatosis by fibrates. PDK4 deficiency had no effect on CD36 expression but reduced the enzymatic capacity for fatty acid synthesis, suggesting clofibric acid and PDK4 deficiency ameliorate hepatic steatosis by independent mechanisms. Investigation of the mechanism by which insulin regulates PDK4 expression revealed a novel binding site for hepatic nuclear factor 4α (HNF4α) in the PDK4 promoter. The stimulatory effect of HNF4α was sensitive to inhibition by Akt which is activated by insulin. The findings suggest PDK4 is a viable target for the treatment of hepatic steatosis and type 2 diabetes.

PDC

PDK4 knockout mouse

Hepatic steatosis

Blood sugar -- Regulation

Insulin -- Regulation

Fatty liver

Pyruvate kinase

The Roles of Hic-5 in BMP Signaling in Prostate Cancer Cells and Generation of Knockout Mouse Model

Shola, Dorjee Tsewang Norbu

January 2011

No description available.

Biology

Cellular Biology

Molecular Biology

Oncology

Prostate Cancer

Smad

Hic-5

BMP

Knockout Mouse.

UNDERSTANDING THE ROLE OF OXYTOCIN IN SENSORIMOTOR GATING DEFICITS

Dike, Obianuju E.

01 December 2009

No description available.

Biomedical Research

Oxytocin

knockout mice

schizophrenia

glutamate

startle

PPI

MK-801

amphetamine

Possible Interactions of Serotonin and Oxytocin in the Neural Regulation of Aggressive Behavior

Hazlett, Emily G.

15 May 2012

No description available.

Neurosciences

Oxytocin

Serotonin

Aggression

CP-94,253

Oxytocin receptor knockout mouse

Resident-intruder aggresson test

OSTEOACTIVIN IN SKELETON: CHARACTERIZATION OF OSTEOACTIVIN KNOCKOUT MICE & THERAPEUTIC IMPLICATIONS

Stinnett, Hilary M.

30 April 2015

No description available.

Biology

Pharmacology

Cellular Biology

ROLE OF GLUTAMATE-CYSTEINE LIGASE IN MAINTAINING GLUTATHIONE HOMEOSTASIS AND PROTECTING AGAINST OXIDATIVE STRESS

YANG, YI

01 July 2003

No description available.

Health Sciences, Toxicology

glutathione

oxidative stress

glutamate-cysteine ligase

knockout mouse

EXPRESSION MICROARRAY ANALYSIS OF RENAL DEVELOPMENT AND HUMAN RENAL DISEASE

SCHWAB, KRISTOPHER R.

January 2006

No description available.

microarray

Wnt signaling

metanephros

kidney development

focal segmental glomerulosclerosis

Hox genes

gene knockout mice

THE ROLE OF THE FOREBRAIN GLUCOCORTICOID RECEPTOR IN HYPOTHALAMIC-PITUITARY-ADRENOCORTICAL REGULATION

FURAY, AMY REBECCA

09 October 2007

No description available.

Corticostrone

Glucocorticoid Receptor

ACTH

HPA Axis

Transgenic Mice

knockout

Negative feedback

Behavior

Elevated Plus Maze

Definition of mechanisms of mutation generation in tissues and embryonic stem cellsof the constitutive Fhit knockout mouse

Paisie, Carolyn Anne

09 October 2015

No description available.

Genetics

Genome instability

mutation signatures

constitutive knockout mouse strains

exome sequence