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– A novel treatment strategy tackling hypertriglyceridemia via long-acting agents targeting two specific culprit genes caused a stir based on the highly encouraging early results of two small proof-of-concept studies presented at the American Heart Association scientific sessions.

Bruce Jancin/MDedge News
Dr. Christie M. Ballantyne

ARO-APOC3 is a small interfering ribonucleic acid molecule (siRNA) targeting the apolipoprotein C-III gene (APOC3) specifically within hepatocytes, while ARO-ANG3 is an siRNA targeting hepatic angiotensinlike protein 3 (ANG3). ARO-APOC3 is being developed as a potential treatment for familial chylomicronemia syndrome, a rare disorder associated with triglyceride levels in excess of 800 mg/dL, as well as for patients with severe hypertriglyceridemia and associated pancreatitis – a far more common condition – and ultimately, perhaps, for patients with hypertriglyceridemia and heart disease. ARO-ANG3, which lowers very-low-density lipoprotein (VLDL) as well as LDL cholesterol while increasing HDL cholesterol levels, is under development as a treatment for high triglycerides, homozygous familial hypercholesterolemia, nonalcoholic fatty liver disease, and metabolic diseases.

Christie M. Ballantyne, MD, presented the results of the phase 1/2a study of ARO-APOC3, which included 40 healthy subjects who received a single subcutaneous injection of the RNA inhibitor at 10, 25, 50, or 100 mg and were followed for 16 weeks. At the highest dose, it reduced serum APOC3 levels by 94%, triglyceride levels by 64%, LDL cholesterol levels by up to 25%, and VLDL by a maximum of 68%, while boosting HDL cholesterol levels by up to 69%. These substantial changes in lipids remained stable through week 16.

The observed prolonged duration of effect provides a potential opportunity for dosing quarterly or perhaps even twice a year. This would be ideal for patients who have problems with adherence to daily therapy with statins and other oral agents, observed Dr. Ballantyne, professor of medicine and professor of molecular and human genetics at Baylor College of Medicine, Houston.

Bruce Jancin/MDedge News
Dr. Gerald F. Watts


Gerald F. Watts, MBBS, DM, DSc, PhD, presented a separate phase 1/2a, 16-week study of a single dose of ARO-ANG3 at 35, 100, 200, or 300 mg in 40 dyslipidemic subjects who were not on background lipid-lowering therapy. The impact on lipids was similar to that achieved by silencing apolipoprotein C-III, except that the reduction in LDL cholesterol was larger and ARO-ANG3 reduced HDL cholesterol in dose-dependent fashion by up to 26%. As in the ARO-APOC3 study, the safety profile of the ANG3 RNA inhibitor raised no concerns, with no study dropouts and no serious adverse events, added Dr. Watts, professor of medicine at the University of Western Australia, Perth.

 

 


Discussant Daniel J. Rader, MD, noted that there is an unmet need for hypertriglyceridemia-lowering therapies, because elevated triglycerides can cause pancreatitis as well as coronary disease.

“These siRNA molecules are catalytic: They can go around and destroy multiple aspects of the target RNAs in a way that provides substantial longevity of effect, which is quite remarkable,” explained Dr. Rader, professor of molecular medicine and director of the preventive cardiology program at the University of Pennsylvania, Philadelphia.

Hypertriglyceridemia is often a challenge to treat successfully in clinical practice, so the siRNA studies drew considerable attention, not only for the impressive size and durability of the lipid changes, but also because of the way in which the target genes were identified, a process that began by genetic analysis of individuals with inherently low levels of APOC3 and ANG3.

“One of the really interesting parts of this story is the rapidity with which we went from target identification to therapeutics, now moving into phase 1 and 2 trials. It’s happening much more rapidly than we’ve ever seen before,” commented AHA scientific sessions program chair Donald Lloyd-Jones, MD, senior associate dean for clinical and translational research and chair of the department of preventive medicine at Northwestern University, Chicago.

Still, he was quick to inject a cautionary note. “These genomic studies can show us that having lower levels of these proteins is associated with lower risk. But that doesn’t necessarily mean that lowering levels of these proteins will lower risk, and it certainly doesn’t tell us anything about potential safety concerns.”

In an interview, AHA spokesperson Jennifer Robinson, MD, made a similar point: “We have had lots of fibrate trials in which we’ve lowered triglycerides, and they didn’t really work.”

Yet she, too, was clearly caught up in the thrill of the early evidence of a novel means of treating new targets in dyslipidemia.

“We’re on the cusp of the genetic revolution,” declared Dr. Robinson, professor of epidemiology and director of the preventive and intervention center at the University of Iowa, Iowa City. “For us science nerds, this is so exciting. It’s so cool. The brilliance of these compounds is they have a very focused target in a very focused organ. If you’re just in the liver, you’re limiting off-target effects, so the safety issue should be better than with what we have now.”

Bruce Jancin/MDedge News
Dr. Daniel J. Rader

Dr. Rader commented that plenty of questions remain to be answered about siRNA therapy for hyperlipidemia. These include which target – APOC3 or ANG3 – is the more effective for treating severe hypertriglyceridemia and/or for preventing major cardiovascular events, how frequently these agents will need to be dosed, whether there’s a clinical downside to the substantial HDL cholesterol lowering seen with silencing of ANG3, and whether the APOC3 that’s produced in the intestine – and which isn’t touched by hepatocentric ARO-APOC3 – will cause problems.

Dr. Ballantyne reported serving as a consultant to Arrowhead Pharmaceutics, which is developing the RNA inhibitors for hypertriglyceridemia, as well as numerous other pharmaceutical companies. Dr. Watts has received research grants from Amgen and Sanofi-Regeneron.

bjancin@mdedge.com

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– A novel treatment strategy tackling hypertriglyceridemia via long-acting agents targeting two specific culprit genes caused a stir based on the highly encouraging early results of two small proof-of-concept studies presented at the American Heart Association scientific sessions.

Bruce Jancin/MDedge News
Dr. Christie M. Ballantyne

ARO-APOC3 is a small interfering ribonucleic acid molecule (siRNA) targeting the apolipoprotein C-III gene (APOC3) specifically within hepatocytes, while ARO-ANG3 is an siRNA targeting hepatic angiotensinlike protein 3 (ANG3). ARO-APOC3 is being developed as a potential treatment for familial chylomicronemia syndrome, a rare disorder associated with triglyceride levels in excess of 800 mg/dL, as well as for patients with severe hypertriglyceridemia and associated pancreatitis – a far more common condition – and ultimately, perhaps, for patients with hypertriglyceridemia and heart disease. ARO-ANG3, which lowers very-low-density lipoprotein (VLDL) as well as LDL cholesterol while increasing HDL cholesterol levels, is under development as a treatment for high triglycerides, homozygous familial hypercholesterolemia, nonalcoholic fatty liver disease, and metabolic diseases.

Christie M. Ballantyne, MD, presented the results of the phase 1/2a study of ARO-APOC3, which included 40 healthy subjects who received a single subcutaneous injection of the RNA inhibitor at 10, 25, 50, or 100 mg and were followed for 16 weeks. At the highest dose, it reduced serum APOC3 levels by 94%, triglyceride levels by 64%, LDL cholesterol levels by up to 25%, and VLDL by a maximum of 68%, while boosting HDL cholesterol levels by up to 69%. These substantial changes in lipids remained stable through week 16.

The observed prolonged duration of effect provides a potential opportunity for dosing quarterly or perhaps even twice a year. This would be ideal for patients who have problems with adherence to daily therapy with statins and other oral agents, observed Dr. Ballantyne, professor of medicine and professor of molecular and human genetics at Baylor College of Medicine, Houston.

Bruce Jancin/MDedge News
Dr. Gerald F. Watts


Gerald F. Watts, MBBS, DM, DSc, PhD, presented a separate phase 1/2a, 16-week study of a single dose of ARO-ANG3 at 35, 100, 200, or 300 mg in 40 dyslipidemic subjects who were not on background lipid-lowering therapy. The impact on lipids was similar to that achieved by silencing apolipoprotein C-III, except that the reduction in LDL cholesterol was larger and ARO-ANG3 reduced HDL cholesterol in dose-dependent fashion by up to 26%. As in the ARO-APOC3 study, the safety profile of the ANG3 RNA inhibitor raised no concerns, with no study dropouts and no serious adverse events, added Dr. Watts, professor of medicine at the University of Western Australia, Perth.

 

 


Discussant Daniel J. Rader, MD, noted that there is an unmet need for hypertriglyceridemia-lowering therapies, because elevated triglycerides can cause pancreatitis as well as coronary disease.

“These siRNA molecules are catalytic: They can go around and destroy multiple aspects of the target RNAs in a way that provides substantial longevity of effect, which is quite remarkable,” explained Dr. Rader, professor of molecular medicine and director of the preventive cardiology program at the University of Pennsylvania, Philadelphia.

Hypertriglyceridemia is often a challenge to treat successfully in clinical practice, so the siRNA studies drew considerable attention, not only for the impressive size and durability of the lipid changes, but also because of the way in which the target genes were identified, a process that began by genetic analysis of individuals with inherently low levels of APOC3 and ANG3.

“One of the really interesting parts of this story is the rapidity with which we went from target identification to therapeutics, now moving into phase 1 and 2 trials. It’s happening much more rapidly than we’ve ever seen before,” commented AHA scientific sessions program chair Donald Lloyd-Jones, MD, senior associate dean for clinical and translational research and chair of the department of preventive medicine at Northwestern University, Chicago.

Still, he was quick to inject a cautionary note. “These genomic studies can show us that having lower levels of these proteins is associated with lower risk. But that doesn’t necessarily mean that lowering levels of these proteins will lower risk, and it certainly doesn’t tell us anything about potential safety concerns.”

In an interview, AHA spokesperson Jennifer Robinson, MD, made a similar point: “We have had lots of fibrate trials in which we’ve lowered triglycerides, and they didn’t really work.”

Yet she, too, was clearly caught up in the thrill of the early evidence of a novel means of treating new targets in dyslipidemia.

“We’re on the cusp of the genetic revolution,” declared Dr. Robinson, professor of epidemiology and director of the preventive and intervention center at the University of Iowa, Iowa City. “For us science nerds, this is so exciting. It’s so cool. The brilliance of these compounds is they have a very focused target in a very focused organ. If you’re just in the liver, you’re limiting off-target effects, so the safety issue should be better than with what we have now.”

Bruce Jancin/MDedge News
Dr. Daniel J. Rader

Dr. Rader commented that plenty of questions remain to be answered about siRNA therapy for hyperlipidemia. These include which target – APOC3 or ANG3 – is the more effective for treating severe hypertriglyceridemia and/or for preventing major cardiovascular events, how frequently these agents will need to be dosed, whether there’s a clinical downside to the substantial HDL cholesterol lowering seen with silencing of ANG3, and whether the APOC3 that’s produced in the intestine – and which isn’t touched by hepatocentric ARO-APOC3 – will cause problems.

Dr. Ballantyne reported serving as a consultant to Arrowhead Pharmaceutics, which is developing the RNA inhibitors for hypertriglyceridemia, as well as numerous other pharmaceutical companies. Dr. Watts has received research grants from Amgen and Sanofi-Regeneron.

bjancin@mdedge.com

– A novel treatment strategy tackling hypertriglyceridemia via long-acting agents targeting two specific culprit genes caused a stir based on the highly encouraging early results of two small proof-of-concept studies presented at the American Heart Association scientific sessions.

Bruce Jancin/MDedge News
Dr. Christie M. Ballantyne

ARO-APOC3 is a small interfering ribonucleic acid molecule (siRNA) targeting the apolipoprotein C-III gene (APOC3) specifically within hepatocytes, while ARO-ANG3 is an siRNA targeting hepatic angiotensinlike protein 3 (ANG3). ARO-APOC3 is being developed as a potential treatment for familial chylomicronemia syndrome, a rare disorder associated with triglyceride levels in excess of 800 mg/dL, as well as for patients with severe hypertriglyceridemia and associated pancreatitis – a far more common condition – and ultimately, perhaps, for patients with hypertriglyceridemia and heart disease. ARO-ANG3, which lowers very-low-density lipoprotein (VLDL) as well as LDL cholesterol while increasing HDL cholesterol levels, is under development as a treatment for high triglycerides, homozygous familial hypercholesterolemia, nonalcoholic fatty liver disease, and metabolic diseases.

Christie M. Ballantyne, MD, presented the results of the phase 1/2a study of ARO-APOC3, which included 40 healthy subjects who received a single subcutaneous injection of the RNA inhibitor at 10, 25, 50, or 100 mg and were followed for 16 weeks. At the highest dose, it reduced serum APOC3 levels by 94%, triglyceride levels by 64%, LDL cholesterol levels by up to 25%, and VLDL by a maximum of 68%, while boosting HDL cholesterol levels by up to 69%. These substantial changes in lipids remained stable through week 16.

The observed prolonged duration of effect provides a potential opportunity for dosing quarterly or perhaps even twice a year. This would be ideal for patients who have problems with adherence to daily therapy with statins and other oral agents, observed Dr. Ballantyne, professor of medicine and professor of molecular and human genetics at Baylor College of Medicine, Houston.

Bruce Jancin/MDedge News
Dr. Gerald F. Watts


Gerald F. Watts, MBBS, DM, DSc, PhD, presented a separate phase 1/2a, 16-week study of a single dose of ARO-ANG3 at 35, 100, 200, or 300 mg in 40 dyslipidemic subjects who were not on background lipid-lowering therapy. The impact on lipids was similar to that achieved by silencing apolipoprotein C-III, except that the reduction in LDL cholesterol was larger and ARO-ANG3 reduced HDL cholesterol in dose-dependent fashion by up to 26%. As in the ARO-APOC3 study, the safety profile of the ANG3 RNA inhibitor raised no concerns, with no study dropouts and no serious adverse events, added Dr. Watts, professor of medicine at the University of Western Australia, Perth.

 

 


Discussant Daniel J. Rader, MD, noted that there is an unmet need for hypertriglyceridemia-lowering therapies, because elevated triglycerides can cause pancreatitis as well as coronary disease.

“These siRNA molecules are catalytic: They can go around and destroy multiple aspects of the target RNAs in a way that provides substantial longevity of effect, which is quite remarkable,” explained Dr. Rader, professor of molecular medicine and director of the preventive cardiology program at the University of Pennsylvania, Philadelphia.

Hypertriglyceridemia is often a challenge to treat successfully in clinical practice, so the siRNA studies drew considerable attention, not only for the impressive size and durability of the lipid changes, but also because of the way in which the target genes were identified, a process that began by genetic analysis of individuals with inherently low levels of APOC3 and ANG3.

“One of the really interesting parts of this story is the rapidity with which we went from target identification to therapeutics, now moving into phase 1 and 2 trials. It’s happening much more rapidly than we’ve ever seen before,” commented AHA scientific sessions program chair Donald Lloyd-Jones, MD, senior associate dean for clinical and translational research and chair of the department of preventive medicine at Northwestern University, Chicago.

Still, he was quick to inject a cautionary note. “These genomic studies can show us that having lower levels of these proteins is associated with lower risk. But that doesn’t necessarily mean that lowering levels of these proteins will lower risk, and it certainly doesn’t tell us anything about potential safety concerns.”

In an interview, AHA spokesperson Jennifer Robinson, MD, made a similar point: “We have had lots of fibrate trials in which we’ve lowered triglycerides, and they didn’t really work.”

Yet she, too, was clearly caught up in the thrill of the early evidence of a novel means of treating new targets in dyslipidemia.

“We’re on the cusp of the genetic revolution,” declared Dr. Robinson, professor of epidemiology and director of the preventive and intervention center at the University of Iowa, Iowa City. “For us science nerds, this is so exciting. It’s so cool. The brilliance of these compounds is they have a very focused target in a very focused organ. If you’re just in the liver, you’re limiting off-target effects, so the safety issue should be better than with what we have now.”

Bruce Jancin/MDedge News
Dr. Daniel J. Rader

Dr. Rader commented that plenty of questions remain to be answered about siRNA therapy for hyperlipidemia. These include which target – APOC3 or ANG3 – is the more effective for treating severe hypertriglyceridemia and/or for preventing major cardiovascular events, how frequently these agents will need to be dosed, whether there’s a clinical downside to the substantial HDL cholesterol lowering seen with silencing of ANG3, and whether the APOC3 that’s produced in the intestine – and which isn’t touched by hepatocentric ARO-APOC3 – will cause problems.

Dr. Ballantyne reported serving as a consultant to Arrowhead Pharmaceutics, which is developing the RNA inhibitors for hypertriglyceridemia, as well as numerous other pharmaceutical companies. Dr. Watts has received research grants from Amgen and Sanofi-Regeneron.

bjancin@mdedge.com

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